processing+machines

processing machines

Машиностроение: обрабатывающие станки

data processing machines

машины для обработки информации ;

electronic data processing machines

elektronik bilgi islem makineleri

industry of machines, processing equipment and installations for industry

Экономика: промышленность машин, технологического оборудования и установок для промышленности

machine

станок; машина || обрабатывать на станке

away from the machine — вне станка

machine for production of core stock from laths — лущильный станок

machine is out of alignment — станок потерял геометрическую точность

to machine all over — обрабатывать ( изделие) кругом

to balance machine workloads — выравнивать загрузку станков

to CNC machine — обрабатывать на станке с ЧПУ, обрабатывать на станке с ЧПУ типа CNC, обрабатывать изделие на станке с ЧПУ, обрабатывать изделие на станке с ЧПУ типа CNC

to configure machines into an integrated cell — компоновать станки в составе ГАУ

to dry run the machine — управлять станком на холостом ходу ( без обработки)

to fix a machine — налаживать станок; ремонтировать станок

to machine off — срезать; отрезать

to machine the feature — обрабатывать элемент, обрабатывать элемент изделия

to program the machine — программировать ( обработку) на станке

to put the machine out of operation — останавливать станок

to recalibrate the machine for wear — перенастраивать станок для компенсации износа

to render machine inoperative — останавливать станок

to tend the machine — обслуживать станок

to trial machine — обрабатывать на пробном проходе

machine with sliding frame — станок с подвижной рамой, станок с перемещающейся рамой

machine with traveling table for shaping — станок с подвижным столом для раскроя по формату, станок с перемещающимся столом для раскроя по формату

- overhead way machine

- 2 m3 machine
- 3-axis NC machine
- 50-taper machine
- 630-mm-class machine
- 90º plate shearing machine
- 90º sheet shearing machine
- above resonance-balancing machine
- abrasion testing machine
- abrasive belt head machine
- abrasive belt-grinding machine
- abrasive cold-sawing machine
- abrasive cutting-off machine
- abrasive disk machine
- abrasive electrochemical machine
- abrasive metal-cutting machine
- abrasive wear-testing machine
- AC machine
- accounting machine
- acyclic machine
- adapting machine
- adaptive control machine
- adaptive controlled machine
- adding machine
- adjustable multiple-spindle drilling machine
- adjustable rail machine
- adjustable rail milling machine
- advanced technology machine
- air-drying machine
- airspace profiling machine
- align boring machine
- all-electric machine
- all-geared machine
- all-hydraulic machine
- all-purpose machine
- all-steel machine
- alterating impact testing machine
- alterating stress testing machine
- aluminum machine
- analog machine
- ancillary inspection machine
- angle straightening machine
- angle-bending machine
- angle-iron bending machine
- angle-iron shearing machine
- anthropomorphic machine
- arm tapping machine
- armoring machine
- articulating arm tapping machine
- artificial intelligence-driven machine
- AS/R machine
- aspheric diamond turning machine
- assembling machine
- assembly machine
- ATC machine
- ATC-equipped machine
- atomic X-ray machine
- attrition testing machine
- autochucking machine
- automatic arc welding machine
- automatic assembly machine
- automatic bar machine
- automatic buffing machine
- automatic chucking machine
- automatic chucking-and-turning machine
- automatic continuous drum milling machine
- automatic data processing machine
- automatic drill fluting machine
- automatic forging machine
- automatic gas-cutting machine
- automatic gas-welding machine
- automatic machine
- automatic metal forming machine
- automatic polishing machine
- automatic punching machine
- automatic screw machine
- automatic straightening and cutting machine
- automatic strip-straightening machine
- automatic tapping machine
- automatic toolchanger machine
- automatic toolchanging machine
- automatic turret machine
- axial fatigue machine
- axis-controlled machine
- axle turning machine
- balancing machine
- baling machine
- ball race grinding machine
- ball screw machine
- ball-grinding machine
- ball-hardness testing machine
- balling machine
- band cutoff machine
- band machine
- band metal shearing machine
- band-filing machine
- band-grinding machine
- banding machine
- band-polishing machine
- bandsaw blade grinding machine
- bandsaw machine
- bandsaw welding machine
- bandsaw-brazing machine
- bandsawing machine
- bandsaw-sharpening machine
- bar automatic turning machine
- bar feed machine
- bar feed turning machine
- bar machine
- bar-and-chucking machine
- bar-and-chucking turning machine
- bar-and-tube straightening machine
- bar-bending machine
- bar-chamfering machine
- bar-cutting machine
- bar-pointing machine
- bar-polishing machine
- barreling machine
- bar-shearing machine
- bar-skimming machine
- bar-straightening machine
- bar-tagging machine
- bar-type boring machine
- base-type milling machine
- basic machine
- batch-produced machine
- battery spot-welding machine
- beading machine
- bearing roller lapping machine
- bed-type configuration machine
- bed-type drilling machine
- bed-type machine
- bed-type milling machine
- below resonance balancing machine
- belt-driven machine
- belt-grinding machine
- belt-polishing machine
- bench-grinding machine
- bench-mounted machine
- bench-top machine
- bench-type machine
- bending and forming machine
- bending machine
- between-centers turning machine
- bevel gear hobbing machine for spiral bevel gears
- bevel gear hobbing machine for straight gears
- bevel gear lapping machine
- bevel gear making machine
- bevel gear testing machine
- bevel grinding machine
- beveling machine
- bidirectional broaching machine
- binding machine
- bipedal walking machine
- bitting machine
- blade-edging machine
- blade-grinding machine
- blanking machine
- blending machine
- blind spline broach machine
- blind spline broaching machine
- block-and-head broaching machine
- blocked machine
- blower machine
- blowing machine
- blow-ramming molding machine
- blue-print machine
- blue-printing machine
- bobbin machine
- bolt head forging machine
- bolting machine
- bolt-maker machine
- bolt-making machine
- bolt-pointing machine
- bolt-screwing machine
- bolt-threading machine
- bolt-upsetting machine
- bonded machine
- bore centerless grinding machine
- bore-sizing machine
- bore-slotting machine
- boring and milling machine
- boring machine
- boring/facing machine
- boring, drilling and milling machine
- boring, milling and drilling machine
- bottleneck machine
- box-column drilling machine
- bracket-drilling machine
- bracket-milling machine
- braiding machine
- brazing machine
- breaking machine
- bridge machine
- Bridgeport milling machine
- bridge-type milling machine
- Brinell's machine
- broach pulldown machine
- broach-and-center machine
- broach-grinding machine
- broaching tool sharpening machine
- broach-sharpening machine
- brushing machine
- buffing machine
- built-from-scratch machine
- bunching machine
- burn machine
- burning machine
- burnishing machine
- burr-cutting machine
- burring machine
- busy machine
- butt-seam welding machine
- butt-welding machine
- by-level broaching machine
- cabinet-based machine
- cable tension testing machine
- cable-making machine
- cable-stranding machine
- cam automatic screw machine
- cam machine
- cam-controlled machine
- cam-controlled screw machine
- cam-cutting machine
- cam-driven machine
- cam-driven screw machine
- cam-grinding machine
- cam-measuring machine
- cammed screw machine
- cam-milling machine
- cam-operated screw machine
- camshaft-grinding machine
- capable machine
- capacitor discharge spot-welding machine
- capacitor spot-welding machine
- capstan drive machine
- car wheel grinding machine
- carbide tool grinding machine
- carbide tool lapping machine
- carousel machine
- cast iron machine
- cast machine
- casting cleaning machine
- casting machine
- casting washing machine
- cavity sinking EDM machine
- cell machine
- center column rotary index machine
- center column rotary indexing machine
- center hole grinding machine
- center hole lapping machine
- center-drilling machine
- centerdrive machine
- centering and end facing machine
- centering and facing machine
- centering machine
- centerless bar turning machine
- centerless cylindrical grinding machine
- centerless grinding machine
- centerless lapping machine
- centerless polishing machine
- centerless turning machine
- center-type machine
- center-type turning machine
- centrifugal babbiting machine
- centrifugal casting machine
- centrifugal machine
- centrifugal sand-throwing machine
- ceramic-cutting machine
- chain broaching machine
- chain making machine
- chain shotblasting machine
- chain tension testing machine
- chain testing machine
- chain-operated broaching machine
- chamfering machine
- charge-discharge machine
- Charpy impact machine
- Charpy machine
- charting machine
- check balancing machine
- checking machine
- chip-making machine
- chip-producing machine
- chucker machine
- chucker-and-bar machine
- chucking machine
- circle cutting machine
- circuit board drilling machine
- circular cold sawing machine
- circular continuous milling machine
- circular cutoff machine
- circular dividing machine
- circular graduating machine
- circular grinding machine
- circular hot sawing machine
- circular saw blade grinding machine
- circular saw sharpening machine
- circular sawing machine
- circular seam-welding machine
- circumferential seam-welding machine
- cleaning machine
- closing machine
- CNC high-speed routing machine
- CNC machine
- CNC screw machine
- CNC Swiss-type screw machine
- CNC/CMM machine
- CNC-manual machine
- CNC-operated machine
- CNC-retrofitted machine
- CO2 laser cutting machine
- coil banding machine
- coil downending machine
- coiling machine
- coil-processing machine
- coil-strapping machine
- coil-stripping machine
- coil-winding machine
- coil-wrapping machine
- cold saw-cutting-off machine
- cold thread rolling machine
- cold upsetting machine
- cold-chamber die-casting machine
- cold-forging machine
- cold-forming machine
- cold-heading machine
- cold-sawing machine
- collecting machine
- column drilling machine
- column-and-knee-type machine
- column-and-knee-type milling machine
- combination jarring squeezing molding machine
- combined boring-and-honing machine
- combined curve-cutting and nibbling machine
- combined gear hobbing and gear shaping machine
- combined machine
- combined milling-turning machine
- combined planing-and-milling machine
- combined shearing machine
- combined surface planing and thicknessing machine
- combined vertical and horizontal broaching machine
- commercial machine
- commutator machine
- complementary machines
- component cleaning machine
- component insertion machine
- composite boring-and-honing machine
- compound machine
- compound table machine
- compound universal milling machine
- compressed air driven machine
- compressed gas machine
- compression-testing machine
- compression-type machine
- computer-controlled industrial machine
- computer-controlled machine
- computerized machine
- computing machine
- condenser spot-welding machine
- cone pulley machine
- conical rotor machine
- constant cycling machine
- container erecting-and-forming machine
- container-cleaning machine
- container-washing machine
- continuous chain broaching machine
- continuous drum milling machine
- continuous motion machine
- continuous motion orienting-and-tapping machine
- continuous path NC machine
- continuous path tape controlled machine
- continuous roll-forming machine
- continuous rotary milling machine
- continuous tapping machine
- continuous wire EDM machine
- continuous wire machine
- continuous-casting machine with bending discharge
- continuous-casting machine
- continuously running machine
- contour band machine
- contour production machine
- contour squeeze molding machine
- contouring band machine
- contouring machine
- contour-milling machine
- contour-shaping machine
- controlling machine
- conventional machine
- conventional manually-operated machine
- conventionally operated machine
- converted lathe-and-milling machine
- converted machine
- convertible planing machine
- conveying machine
- cooling machine
- coordinate boring machine
- coordinate boring-and-milling machine
- coordinate drilling machine
- coordinate drilling-boring-and-milling machine
- coordinate inspection machine
- coordinate measuring machine
- coping machine
- copy control machine
- copy grinding machine
- copying machine
- copy-milling machine
- copy-piercing machine
- copy-planing machine
- core blowing machine
- core jarring machine
- core shooting machine
- core wire straightening machine
- core-making machine
- corrosion-fatigue testing machine
- corrugating machine
- countersink machine
- countersinking machine
- coupling machine
- crack detection machine
- crankpin-turning machine
- crankshaft-balancing machine
- crankshaft-grinding machine
- crankshaft-lapping machine
- crankshaft-milling machine
- crankshaft-regrinding machine
- crank-shaping machine
- crank-slotting machine
- creasing machine
- creep feed grinding machine
- creep testing machine
- crimping machine
- crocodile shearing machine
- cropping machine
- cross roll-forging machine
- cross-wire welding machine
- crosswise veneer splicing machine
- crushing machine
- cupping machine
- curling machine
- curtain coating machine
- curve-cutting machine
- curved tooth bevel gear cutting machine
- curve-milling machine
- curvilinear slotting machine
- curving machine
- custom metalcutting machine
- custom-assembled machine
- custom-build machine
- customized machine
- cutoff band machine
- cutoff machine
- cutter inspection machine
- cutter-checking machine
- cutter-grinding machine
- cutter-relieving machine
- cutting machine with coordinate drive
- cutting machine
- cutting-off machine
- cylinder-boring machine
- cylinder-grinding machine
- cylinder-honing machine
- cylindrical coordinate-measuring machine
- cylindrical external grinding machine
- cylindrical gear hobbing machine
- cylindrical gear shaping machine
- cylindrical rotor machine
- cylindrical turning machine
- cylindrical-die thread-rolling machine
- data processing machine
- database machine
- DCC coordinate measuring machine
- De Levaud casting machine
- deburring machine
- decoiling machine
- dedicated proving machine
- dedicated special machine
- deencapsulation machine
- deep drawing machine
- deep hole boring machine
- deep hole drilling machine
- deep hole drilling/boring machine
- deep rolling machine
- defective machine
- degreasing machine
- descaling machine
- deseaming machine
- desktop machine
- destination machine
- detangling machine
- detwisting machine
- development machine
- dial machine
- dial-index machine
- dial-indexing machine
- dial-type machine
- dial-type transfer machine
- diamond die polishing machine
- diamond machine
- diamond pyramid hardness machine
- diamond-boring machine
- diamond-contouring machine
- diamond-honing machine
- diamond-impregnated wire cutting machine
- diamond-turning machine
- die head chaser grinding machine
- die-and-mold grinding machine
- die-casting machine
- die-filing machine
- die-grinding machine
- die-milling machine
- die-polishing machine
- die-ripping machine
- die-shaping machine
- die-sinking and hole-contouring machine
- die-sinking machine
- die-sinking milling machine
- die-sinking spark erosion machine
- die-stamping machine
- digging machine
- digitizing and scanning machine
- digitizing machine
- digitizing/cutting machine
- digitizing-metalcutting machine
- dimensional gaging machine
- direct computer controlled machine
- direct current commutator machine
- direct stress machine
- direct stress testing machine
- direct-drive machine
- discharge machine
- disk machine
- disk sanding machine
- disk-cutting machine
- disk-grinding machine
- disk-resurfacing machine
- dividing machine
- DMM machine
- DNC-controlled machine
- DNC-like machine
- DNC-supported machine
- double duplex milling machine
- double portal cutting machine
- double wheel lapping machine
- double-cantilever cutting machine
- double-column milling machine
- double-column planing machine
- double-column slideway grinding machine
- double-disk grinding machine
- double-end facing-and-centering machine
- double-end fine boring machine
- double-end grinding machine
- double-end machine
- double-end mill-and-centering machine
- double-end milling machine
- double-ended centering and end-facing machine
- double-ended centering machine
- double-ended drilling machine
- double-ended machine
- double-ended milling machine
- double-faced mill-and-centering machine
- double-fed asynchronous machine
- double-gantry milling machine
- double-head machine
- double-housing machine
- double-housing milling machine
- double-lap lapping and polishing machine
- double-punching machine
- double-ram vertical broaching machine
- double-roll forming machine
- double-shaping machine
- double-slide vertical broaching machine
- double-strand pig machine
- dovetailing machine
- dowel-insert machine
- down machine
- downstroking machine
- drafting machine
- draw machine
- drawing machine
- dream machine
- dressing machine
- drill and tap machine
- drill fluting machine
- drill machine
- drill press machine
- drill/tap machine
- drill-grinding machine
- drillhead-changing machine
- drilling machine
- drilling, milling and boring machine
- drilling-and-boring machine
- drilling-and-counterboring machine
- drilling-and-milling machine
- drilling-and-routing machine
- drilling-and-tapping machine
- drilling-and-threading machine
- drilling-tapping machine
- drill-layout machine
- drooping-characteristic machine
- drop-testing machine
- drum-type continuous milling machine
- drum-type milling machine
- dry cutting machine
- dry-floor machine
- drying machine
- dual co-axial spindle and subspindle turning machine
- dual controlled manual/CNC machine
- dual machine
- dual planing-and-milling machine
- dual-gantry machine
- dual-head machine
- dual-pallet machine
- dual-purpose machine
- dual-ram surface-broaching machine
- dual-station machine
- ductility testing machine
- dummy machine
- dumping molding machine
- duplex machine for rail ends
- duplex machine
- duplex multiple spindle machine
- duplex vertical broaching machine
- duplex-head milling machine
- duplex-manufacturing bed-type milling machine
- duplex-type of surface broaching machine
- duplicating machine
- duplicating milling machine
- dynamic balancing machine
- eager-beaver pulldown broaching machine
- earth-moving machine
- EB welding machine
- ECM machine
- economically priced machine
- ED grinding machine
- ED wire cutting machine
- ED-copying machine
- ED-cutting-off machine
- eddy current machine
- eddy current test machine
- edge-beveling machine
- edge-chamfering machine
- edge-cutting machine
- edge-knurling machine
- edge-milling machine
- edge-planing machine
- edge-trimming machine
- edging machine
- EDM diesinking machine
- EDM machine
- EDM texturing machine
- EDM wire machine
- EDM wire-cut machine
- ED-sinking machine
- educational machine
- efficiency testing machine
- eight-axis NC machine
- electric drive machine
- electric machine
- electric molding machine
- electrical discharge die-sinking and hole-contouring machine
- electrical discharge machine
- electrical discharge outcutting machine
- electrical discharge profiling machine
- electrically-operated machine
- electric-spark cutting machine
- electrochemical grinding machine
- electrode feeding machine
- electro-discharge drilling machine
- electro-discharge grinding machine
- electrolytic grinding machine
- electrolytic machine
- electrolytic tinning machine
- electrolytically assisted cutting-off machine
- electrolytically assisted machine
- electromagnetic molding machine
- electron beam drilling machine
- electron beam machine
- electron beam welding machine
- electronic data processing machine
- electroplating machine
- electrostatic stored-energy machine
- elevating beam boring machine
- elevating head milling machine
- elevating machine
- elevating rail machine
- elevator machine
- embossing machine
- encapsulating machine
- end preparation machine
- end-finishing machine
- end-finishing-centering machine
- end-grinding machine
- ending-and-centering machine
- end-turning machine
- endurance testing machine for repeated torsion
- endurance testing machine
- end-working machine
- energy machine
- energy transforming machine
- energy-intensive machine
- engraving form duplicating machine
- engraving machine
- engraving-type form duplicating machine
- Erichsen cupping machine
- Erichsen ductility machine
- eroding machine
- erosion machine
- etch machine
- etching machine
- exhibited machine
- expanding machine
- explosive force molding machine
- extended-travel machine
- extension machine
- external angular plunge grinding machine
- external broaching machine
- external cylindrical centerless grinding machine
- external grinding machine
- external honing machine
- extracting machine
- extruding machine
- extrusion machine
- face-grinding machine
- face-milling machine
- facing machine
- facing-and-centering machine
- facsimile machine
- failed machine
- falling weight testing machine
- fastener tapping-and-orienting machine
- fatigue bending machine
- fatigue testing machine for alternating torsion
- fatigue testing machine
- fault detection machine
- fax machine
- feedback machine
- field-tested machine
- file-cutting machine
- file-testing machine
- filing machine
- filing-and-sawing machine
- filling machine
- fine boring machine
- fine countersinking machine
- fine-blanking machine
- finish boring machine
- finishing machine
- finite memory machine
- finite state machine
- first-off machine
- fir-tree broachinng machine
- fir-tree milling machine
- five-side machine
- five-sided machine
- fixed beam machine
- fixed bed milling machine
- fixed bed-type milling machine
- fixed cycle machine
- fixed machine
- fixed post machine
- fixed sequence machine
- fixed weighing machine
- fixed-column machine
- fixed-table machine
- flame-cutting machine
- flame-profiling machine
- flanging machine
- flash butt-welding machine
- flat die thread-rolling machine
- flattening machine
- flexible assembly machine
- flexible machine
- flexible shaft filing machine
- flexible transfer machine
- flexing machine
- floor charging machine
- floor horizontal boring machine
- floor machine
- floor-type horizontal boring machine
- floor-type machine
- floor-type stripper machine
- flotation machine
- Floturn machine
- flowturning machine
- FLS machine
- fluid-actuated machine
- fluid-feed machine
- flute-grinding machine
- flute-milling machine
- fluting machine
- flying cutoff machine
- FM machine
- FMS machine
- FMS-capable machine
- foil butt-seam welding machine
- folding machine
- foot-operated welding machine
- forge rolling machine
- forging machine
- form cutter milling machine
- form-duplicating machine
- form-grinding machine
- forming machine
- form-milling machine
- form-testing machine
- foundry machine
- four-ball machine
- four-pallet machine
- four-roll bending machine
- four-roll forming machine
- four-roll sheet bending machine
- four-strand continuous casting machine
- friction disk sawing machine
- front-loading turning machine
- front-operated turning machine
- full-automatic turret screw machine
- furnace hoisting machine
- furnace-threading machine
- fusion cutting-off machine
- gaging machine
- gag-straightening machine
- galvanizing machine
- gang drilling machine
- gang slitting machine
- ganghead replaceable-type machine
- gangspindle drilling machine
- gang-tooled machine
- gang-type drilling machine
- gantry cutting machine
- gantry-loaded machine
- gantry-type machine
- gantry-type milling machine
- gantry-type plano-milling machine
- gas-cutting machine
- gear cutter grinding machine
- gear fine processing machine
- gear grinding and polishing machine
- gear lapping and polishing machine
- gear machine
- gear profile grinding machine
- gear tooth chamfering machine
- gear tooth grinding machine
- gear tooth inspection machine
- gear tooth rounding machine
- gear-burnishing machine
- gear-chamfering machine
- gear-checking machine
- gear-cutting machine
- gear-deburring machine
- geared head machine
- gear-finishing machine
- gear-grinding machine
- gear-hardening machine
- gear-hobbing machine for spur gears
- gear-hobbing machine
- gear-honing machine
- gear-lapping machine
- gear-making machine
- gear-manufacturing machine
- gear-measuring machine
- gear-milling machine
- gear-polishing machine
- gear-producing machine
- gear-rolling machine
- gear-shaping machine
- gear-shaving machine
- gear-sizing machine
- gear-testing machine
- general-purpose flat surface broaching machine
- general-purpose machine
- generating machine
- gilding machine
- gimbals head rolling machine
- gold rolling machine
- grading machine
- grinder-milling machine
- grinding machine for drill bits
- grinding machine with rotating column
- grinding machine
- grinding-and-lapping machine
- grinding-and-polishing machine
- grooving machine
- G-Tech machine
- Guillotine knife grinding machine for long knives
- Guillotine knife grinding machine
- gun-boring machine
- gun-drill machine
- gun-drilling machine
- gun-rifling machine
- gun-welding machine
- hacksawing machine
- half-NC machine
- hammer impact machine
- hammering machine
- hand-driven cutting machine
- hand-fed machine
- hand-held machine
- hand-load machine
- hand-milling machine
- hand-operated molding machine
- hand-operated press-molding machine
- hand-operated squeezing machine
- hard bearing balancing machine
- hard X-ray machine
- hardening machine
- hardness-testing machine
- hardwired NC machine
- Hazellet continuous strip casting machine
- head-changer machine
- head-changing machine
- heading machine
- headstock moving-type automatic screw machine
- head-to-head machines
- heating machine
- heavy machine
- heavy-duty machine
- heavy-hogging machine
- hexapod machine
- high-accuracy machine
- high-energy-rate forging machine
- high-energy-rate machine
- high-frequency ac welding machine
- high-frequency hardening machine
- highly accurate machine
- highly productive machine
- high-performance machine
- high-precision machine
- high-production machine
- high-productivity machine
- high-specification machine
- high-speed drafting machine
- high-speed machine
- high-speed spindle machine
- high-technology machine
- high-temperature fatigue testing machine
- high-velocity ram machine
- high-volume machine
- hinged roll-over machine
- hitch-feed cut-off machine
- HNC machine
- hob back-off machine
- hob tooth profile grinding machine
- hobbing machine
- hob-grinding machine
- hob-sharpening machine
- hoisting machine
- hole milling-and-reaming machine
- hole-making machine
- hole-punching machine
- hone machine
- honing machine
- honing-and-lapping machine
- horizontal arm measuring machine
- horizontal band machine
- horizontal bar machine
- horizontal boring machine
- horizontal broaching machine
- horizontal casting machine
- horizontal continuous broaching machine
- horizontal continuous drilling machine
- horizontal forging machine
- horizontal indexing machine
- horizontal internal broaching machine
- horizontal machine
- horizontal milling machine
- horizontal plate-bending machine
- horizontal punching machine
- horizontal ram machine
- horizontal shaping machine
- horizontal slotting machine
- horizontal spindle surface grinding machine
- horizontal square T-planer type milling machine
- horizontal-type machine
- horizontal-vertical milling machine
- hose-type sandblast tank machine
- host machine
- hot plate straightening machine
- hot-box core-making machine
- hot-chamber die-casting machine
- hot-heading machine
- hot-metal sawing machine
- hsc machine
- hybrid machine
- hydraulic axis machine
- hydraulic balancing machine
- hydraulic bloom shearing machine
- hydraulic core knockout machine
- hydraulic machine
- hydraulic molding machine
- hydraulic pipe testing machine
- hydraulic riveting machine
- hydraulic shearing machine
- hydraulic squeeze machine
- hydraulically-assisted machine
- hydraulically-driven machine
- hydraulically-powered machine
- hydraulic-assisted machine
- hydraulic-driven machine
- hydraulic-electric machine
- hydraulic-powered machine
- hydro-copying machine
- hydrostatic machine
- hydrostatic-extrusion machine
- imitation machine
- impact machine
- impact pendulum-type testing machine
- impact tension machine
- impact-test machine
- impact-testing machine
- impulse-cutting machine
- impulse-forming machine
- impulsive machine
- inclined tapping machine
- indentation machine
- index machine
- index milling machine
- indexer machine
- indexing chuck machine
- indexing drum milling machine
- indexing head machine
- indexing machine
- indexing turret machine
- induction hardening machine
- induction softening machine
- industrial machine
- informational machine
- ingot stripper machine
- ingot-planing machine
- ingot-scalping machine
- ingot-slicing machine
- injection-molding machine
- in-line machine
- in-line synchronous machine
- in-line transfer machine
- innovative machine
- inspection and measuring machine
- inspection machine
- integrated turning/milling machine
- intelligent machine
- intermittently manned machine
- internal broaching machine
- internal grinding machine
- internal grooving machine
- internal keyseating machine
- internal lapping machine
- internal planetary-type grinding machine
- internal thread grinding machine
- internal-and-external broaching machine
- internal-external inspection machine
- internal-part-transfer vertical broaching machine
- inverted vertical turning machine
- involute profile measuring machine
- ion beam machine
- iron shearing machine
- jar molding machine
- jar ramming machine
- jar ramming roll-over molding machine
- jarring machine
- jig milling machine
- jig-borer-class machine
- jig-boring machine
- jig-drilling machine
- jig-grinding machine
- jigless machine
- job-dedicated machine
- joggling machine
- jointed arm drilling machine
- jolt core-making machine
- jolt molding machine
- jolt pattern-draw molding machine
- jolt roll-over pattern-draw molding machine
- jolt squeeze molding machine
- journal-milling machine
- journal-turning machine
- Kenyon machine
- key machine
- key-and-slot milling machine
- key-bitting machine
- key-cutting machine
- key-duplicating machine
- keyseating and slot milling machine
- keyseating machine
- keyseating milling machine
- keyway-cutting machine
- keyway-milling machine
- keyway-seating machine
- keyway-slotting machine
- kneading machine
- knee-and-column machine
- knee-and-column milling machine
- knee-and-column-type milling machine
- kneeless-type milling machine
- knee-type machine
- knee-type milling machine
- knife-grinding machine
- knitting machine
- knurling machine
- labeling machine
- lamination segments blanking machine
- lapping and polishing machine
- lapping machine
- large-dimensioned machine
- large-scale machine
- large-size machine
- laser beam cutting machine
- laser beam machine
- laser die-sinking machine
- laser etch machine
- laser etching machine
- laser-assisted machine
- laser-controlled machine
- laser-cutting machine
- laser-hardening machine
- laser-scribing machine
- lathe machine
- laying-out machine
- lay-out machine
- lead screw tapping machine
- lead screw testing machine
- leakage-testing machine
- lens-grinding machine
- letter and paper cup machine
- leveling machine
- lever punching machine
- lever testing machine
- leverage proportioned tracing milling machine
- lever-type Brinell machine
- lifting machine
- light machine
- light production machine
- light-duty machine
- lightly manned machine
- light-weight machine
- limited-interference machine
- linear path-controlled machine
- linear station machine
- line-boring machine
- line-controlled machine
- live spindle machine
- lock-seaming machine
- long travel machine
- long-feed cut-off machine
- longitudinal circular cold sawing machine
- longitudinal dividing machine
- longitudinal grinding machine
- longitudinal seam-welding machine
- long-lasting machine
- long-running machine
- long-stroke broaching machine
- long-stroke machine
- long-term strength testing machine
- low-pressure die-casting machine
- machine of compact construction
- machine of dieing design
- machine of the state of the art
- machining machine
- magazine bar feed machine
- magnetic cobbing machine
- magnetic force welding machine
- magnetic forming machine
- maintenance-free machine
- manual machine
- manual-CNC machine
- manual-CNC turning machine
- manually controlled machine
- manually jogged machine
- manually tended machine
- manual-toolchange machine
- manufacturing bed-type milling machine
- manufacturing machine
- manufacturing milling machine
- manufacturing-oriented machine
- manufacturing-type machine
- marking machine
- marking-off machine
- marking-out machine
- mass centering machine
- mass-production machine
- master machine
- match-plate molding machine
- material testing machine
- material-cutting machine
- MDI-controlled machine
- measurement machine
- measuring machine
- mechanical drive machine
- mechanically driven machine
- medium duty machine
- medium travel machine
- mesh-welding machine
- metal slitting machine
- metal testing machine
- metal-cutting machine
- metal-folding machine
- metal-forming machine
- metal-planing machine
- metal-removing machine
- metal-sawing machine
- metal-working machine
- metamorphic machine
- metrology machine
- microcomputer-based NC machine
- microdrilling machine
- microfinishing machine
- micromilling machine
- microscopic drilling machine
- mill/turn machine
- mill-drill-bore machine
- milling cutter grinding machine
- milling machine with table of fixed height and with vertical spindle
- milling machine with table of variable height and with horizontal spindle
- milling machine with table of variable height
- milling machine
- milling/drilling machine
- milling/turning machine
- milling-and-boring machine
- milling-and-centering machine
- minicomputer-controlled machine
- minicoordinate boring machine
- minicoordinate drilling machine
- miter saw machine
- miter-cutting machine
- mitering saw machine
- mixing machine
- mobile gantry-type machine
- mobile weighing machine
- mock-up machine
- model engineers milling machine
- modular industrial machine
- modular machine
- modular-type machine
- molding machine
- mortising machine
- motor-driven welding machine
- movable bridge machine
- movable column machine
- movable saddle machine
- moving bridge machine
- moving column/fixed table machine
- moving machine
- moving table machine
- multiaxis machine
- multidie machine
- multidisciplinary machine
- multidrilling machine
- multifunction machine
- multihead automatic arc-welding machine
- multihead changer machine
- multihead machine
- multihead milling machine
- multiloaded machine
- multioperation machine
- multioperational machine
- multipallet machine
- multiple machines
- multiple secondary-operation machine
- multiple second-operation machine
- multiple-beam flame planing machine
- multiple-blowpipe machine
- multiple-broach broaching machine
- multiple-burner machine
- multiple-diameter grinding machine
- multiple-diameter turning machine
- multiple-head broaching machine
- multiple-head drilling machine
- multiple-operation machine
- multiple-purpose machine
- multiple-roll machine
- multiple-spindle automatic machine
- multiple-spindle bar machine
- multiple-spindle machine
- multiple-spot welding machine
- multiple-station machine
- multiple-station transfer machine
- multiple-table milling machine
- multiple-torch machine
- multiple-transformer machine
- multiple-transformer spot-welding machine
- multiproduct machine
- multipurpose broaching machine
- multipurpose shearing machine
- multireduction wire-drawing machine
- multiroll bar straightening machine
- multiroller machine
- multisensor coordinate machine
- multispecimen testing machine
- multispindle automatic screw machine
- multispindle bar machine
- multispindle head machine
- multispindle head-changing machine
- multispindle screw machine
- multispot machine
- multistation indexing transfer machine
- multistation machine
- multisurface machine
- multitool turning machine
- multiunit drilling machine
- multiuniversal machine
- multiway drilling machine
- nail-making machine
- narrow belt sanding machine
- NC machine
- needle die grinding machine
- needle die polishing machine
- nibbling machine
- nibbling, milling and punching machine
- nipple-threading machine
- No.40-taper-tool machine
- No.50-taper machine
- noncantilevered machine
- nonferrous sawing machine
- non-NC machine
- nonstock machine
- nonsystem machine
- normal accuracy machine
- normal manned NC machine
- notching machine
- numbering machine
- nut-castellating machine
- nut-chamfering machine
- nut-deburring machine
- nut-facing machine
- nut-making machine
- nut-running machine
- nut-setting machine
- nut-shaping machine
- nut-tapping machine
- nut-threading machine
- OD grinding machine
- OD machine
- off-line machine
- offset milling machine
- off-site machine
- oil hydraulic machine
- oil roll machine
- oil-grooving machine
- oiling machine
- omnimil versatile machine
- one-axis machine
- one-head automatic arc-welding machine
- one-hit machine
- one-meter machine
- one-off machine
- one-operator machine
- on-line machine
- open-side milling machine
- open-side planing machine
- open-side plano-milling machine
- open-sided milling machine
- operator-independent machine
- operator-initiated machine
- operator-positionable machine
- operator-programmed machine
- opposed spindle machine
- optical jig boring machine
- optical pattern tracing machine
- optical profile grinding machine
- optical reading machine
- original equipment CNC machine
- orthodox machine
- orthogonally movable machine
- oscillating bandsaw machine
- other machines
- outfacing machine
- outmoded machine
- out-of-alignment machine
- overdesigned machine
- overhead gantry machine
- overhead grinding machine
- overhead recessing machine
- overhead traveling drilling machine
- overwrapping machine
- own-use machine
- oxyacetylene-cutting machine
- oxyfuel burn machine
- packaging machine
- pack-checking machine
- packing machine
- paddle blade-type mixing machine
- paint machine
- pallet pool machine
- pallet shuttle machine
- pallet transfer machine
- pallet-change machine
- palletized machine
- pallet-loading machine
- pallet-type transfer machine
- pantograph-engraving machine
- pantographic engraving machine
- pantograph-type milling machine
- paper-cutting machine
- parting machine
- part-transfer vertical broaching machine
- pattern draw machine
- pattern milling machine
- pattern-controlled machine
- pattern-tracing machine
- PCB machine
- PCB-drilling machine
- PC-equipped machine
- PC-governed machine
- pedal-operated welding machine
- pedal-triggered machine
- pedestal spot-welding machine
- pedestal-drilling machine
- pedestal-grinding machine
- peeling machine
- peening machine
- pendant controlled machine
- pendulum impact testing machine
- percussion-welding machine
- perforating machine
- periodic machine
- physico-chemical machine
- pick-and-place machine
- pickling machine
- piercing machine
- pig casting machine
- pillar-drilling machine
- pilot machine
- pincer spot-welding machine
- pinion-generating machine
- pin-lift molding machine
- pin-making machine
- pin-on-disk wear test machine
- pipe cut-off machine
- pipe-bending machine
- pipe-beveling machine
- pipe-beveling/cutting machine
- pipe-chamfering machine
- pipe-cropping machine
- pipe-crushing machine
- pipe-cutting machine
- pipe-expanding machine
- pipe-facing machine
- pipe-flanging machine
- pipe-flaring machine
- pipe-swabbing machine
- pipe-testing machine
- pipe-threading machine
- pipe-welding machine
- piston contouring machine
- piston ring grinding machine
- piston-turning machine
- pit planing machine
- pit-based broaching machine
- pit-type planing machine
- pivot-head machine
- placing machine
- plain grinding machine
- plain horizontal knee-type milling machine
- plain-way machine
- planer-type boring machine
- planer-type machine
- planer-type milling machine
- planer-type surface grinding machine
- planetary grinding machine
- planetary milling machine
- planetary-type thread milling machine
- planing machine
- planing-and-milling machine
- planomilling machine
- plano-type boring-and-milling machine
- plano-type surface grinding machine
- plasma arc machine
- plasma-cutting machine
- plastics extrusion machine
- plate-bending machine
- plate-cutting machine
- plate-edge beveling machine
- plate-edge planing machine
- plate-fabricating machine
- plate-flanging machine
- plate-flattening machine
- plate-leveling machine
- platen TL machine
- platen-tooled machine
- plate-punching machine
- plate-shearing machine
- plate-straightening machine
- plate-working machine
- platform weighing machine
- plating machine
- plier spot-welding machine
- plugboard/capstan machine
- plugboard-control machine
- plugboard-controlled machine
- plug-ramming machine
- plunge-grinding machine
- plunger core machine
- plunger-type pickling machine
- pneumatic hand machine
- pneumatic machine
- pneumatic molding machine
- pointing machine
- pointing rolling machine
- point-to-point NC machine
- polishing machine
- polygonal turning machine
- polyvalent machine
- portable facing machine
- portable machine
- portable milling machine
- portable valve grinding machine
- portal cutting machine
- portal machine
- portal-frame machine
- portal-type machine
- portal-type plano-milling machine with variable height cross rail
- position control machine
- positive-displacement hydraulic machine
- positive-displacement pneumatic machine
- pot-broach vertical broaching machine
- pot-broaching machine
- powder metal compacting machine
- power machine
- power-driven machine
- power-operated molding machine
- precision boring machine
- precision-controlled machine
- precision-drawing machine
- preparatory NC machine
- preset machine
- presetting machine
- press-molding machine
- press-type machine
- pressure die-casting machine
- press-welding machine
- primary turning machine
- printing machine
- prior art machine
- prior art-type machine
- prismatic coordinate inspection machine
- prismatic machine
- prismatic-type indexing machine
- process machines
- processing machine
- process-specialized machine
- production machine
- product-oriented machine
- profile measurement machine
- profile-cutting machine
- profile-grinding machine
- profile-iron bending machine
- profile-milling machine
- profiler machine
- profiling machine
- profiling milling machine
- program sequence controlled machine
- programmable machine
- programmable-controlled machine
- progressive broach machine
- projection form grinding machine
- projection welding machine
- prototype machine
- proving machine
- pull test machine
- pull-broaching machine
- pull-down broaching machine
- pulling-in machine
- pull-type broaching machine
- pull-type machine
- pull-up broaching machine
- punch machine
- punching and shearing machine
- punching machine
- purpose-built machine
- purpose-designed machine
- push-broaching machine
- push-cut shaping machine
- push-down broaching machine
- push-pull fatigue-testing machine
- push-up broaching machine
- qualifying machine
- quenching machine
- rack milling machine
- rack-and-pinion machine
- rack-and-pinion-operated machine
- radial arm-drilling machine
- radial arm-sawing machine
- radial articulated-arm cutting machine
- radial drilling machine
- radial-and-pillar drilling machine
- radiusing machine
- rail end milling machine
- rail-bending machine
- rail-cambering machine
- rail-drilling machine
- rail-straightening machine
- railway axle grinding machine
- ram impact machine
- ram milling machine
- ram-boring machine
- ram-head milling machine
- ramming molding machine
- ram-type boring and horizontal milling machine
- ram-type EDM machine
- ram-type milling machine
- ram-type tooling machine
- ratio cutting machine
- raw component measuring machine
- reading machine
- reaming machine
- reaming-and-facing machine
- recessing machine
- reciprocating cutoff machine
- reciprocating grinding machine
- reciprocating machine
- reciprocating-die machine
- reciprocating-table surface grinding machine
- recognizing machine
- recoiling machine
- rectifier-type welding machine
- redesigned machine
- reference machine
- refrigerating machine
- regrinding machine
- reinforcing bar bending machine
- reinforcing rod cropping machine
- relieving machine
- remote-control machine
- remote-controlled machine
- renewed machine
- repetitive milling machine
- replaceable gang head machine
- replacement machine
- reproducing pattern milling machine
- research-oriented machine
- resistance welding machine
- resonance-balancing machine
- resonant vibration machine
- resurfacing machine
- retapping machine
- reverse torsion fatigue testing machine
- reverse torsion machine
- rewinding machine
- rifling machine
- rigid production machine
- rigid-bed milling machine
- rigid-capable machine
- rise and fall tank machine
- rising blade machine
- rising table broaching machine
- rivet machine
- riveting machine
- robot machine
- robot-assisted machine
- robot-controlled machine
- robot-fed machine
- robotic machine
- robotically-fed machine
- robot-loaded machine
- robot-operated machine
- rock-crushing machine
- rocker-arm spot-welding machine
- rocker-type pickling machine
- Rockwell hardness machine
- Rockwell hardness-testing machine
- roll machine
- roll sheet bending machine
- roll-bending machine
- roll-end milling machine
- roller finishing machine
- roller profiling machine
- roller section-machinestraightening machine
- roller shape-machinestraightening machine
- roller spot-and-seam welding machine
- roller straightening machine
- roller-stretcher machine
- roll-fluting machine
- roll-forging machine
- roll-forming machine
- roll-grinding machine
- rolling dividing machine
- rolling machine
- rolling-and-bending machine
- rolling-on machine
- rolling-quench machine
- roll-over molding machine
- roll-over pattern-draw machine
- roll-seam welding machine
- roll-straightening machine
- roll-threading machine
- roll-turning machine
- rotary assembly machine
- rotary broaching machine
- rotary compression-type machine
- rotary continuous drum-type milling machine
- rotary continuous milling machine
- rotary dial machine
- rotary dial-index machine
- rotary disk filing machine
- rotary drum broaching machine
- rotary drum fixture milling machine
- rotary flame planing machine
- rotary head machine
- rotary indexing drum machine
- rotary indexing machine
- rotary indexing pallet machine
- rotary indexing table machine
- rotary knife cutting machine
- rotary machine
- rotary milling machine with horizontal workholder
- rotary pallet machine
- rotary planetary machine
- rotary planetary-die machine
- rotary stamping machine
- rotary surface grinding machine
- rotary table machine
- rotary tooled machine
- rotary transfer machine
- rotary welding machine
- rotary-drive machine
- rotary-driven machine
- rotary-table broaching machine
- rotary-table index machine
- rotary-table indexing machine
- rotary-table milling machine
- rotary-table surface grinding machine
- rotary-table transfer machine
- rotary-type milling machine
- rotating machine
- rotating-beam fatigue machine
- rotating-beam fatigue testing machine
- rotation machine
- rotor milling machine
- rotor slot milling machine
- rough boring machine
- rough facing machine
- rough grinding machine
- rough milling machine
- rough turning machine
- roughing machine
- round column drilling machine
- rounding machine
- roundness measuring machine
- routing milling machine
- RP machine
- rundown machine
- running balance indicating machine
- S/R machine
- saddle-type machine
- sample preparation machine
- sampling machine
- sandblast cleaning machine
- sandblast machine with stationary nozzle
- sandblast machine
- sandblast sprocket-table machine
- sand-throwing machine
- saw machine
- saw-brazing machine
- saw-cutting machine
- saw-grinding machine
- sawing machine
- saw-setting machine
- saw-sharpening machine
- saw-toothing machine
- scalping machine
- scissors-type horizontal band machine
- scissors-type horizontal machine
- scrap shearing machine
- scraping machine
- scratchbrush machine
- screening machine
- screw machine
- screw thread grinding machine
- screw thread milling machine
- screw thread rolling machine
- screw thread whirling machine
- screw-cutting machine
- screw-driving machine
- screw-head slotting machine
- screwing machine
- screw-nicking machine
- screw-shaving machine
- scribing machine
- scrubbing machine
- scrubbing-and-drying machine
- sculpturing machine
- seam-welding machine
- secondary machine
- second-operation machine
- section bending machine
- section shearing machine
- section-iron bending machine
- section-iron shearing machine
- section-straightening machine
- section-stretching machine
- segmented transfer machine
- self-controlling machine
- self-correcting machine
- semiautomatic arc welding machine
- semiautomatic gas-cutting machine
- semiautomatic grinding machine
- semiautomatic machine
- semiautomatic welding machine
- semiproduction machine
- sensitive drilling machine
- sensitive tapping machine
- separately excited machine
- sequence-controlled machine
- sequential transfer machines
- series-produced machines
- servo indexer machine
- servo slide machine
- sets-of-parts operated machine
- shaft machine
- shape-cutting machine
- shaper machine
- shape-straightening machine
- shaping machine
- sharpening machine
- shaving cutter grinding machine
- shear machine
- shearing machine
- shear-speed machine
- sheet and plate bending machine
- sheet bending machine
- sheet metal bending machine
- sheet metal cutting machine
- sheet metal folding machine
- sheet metal leveling machine
- sheet metal shearing machine
- sheet metal stamping machine
- sheet metal working machine
- sheet straightening and polishing machine
- sheet working machine
- sheet-leveling machine
- sheet-straightening machine
- shell core blowing machine
- shell molding machine
- ship propeller milling machine
- shock-and-vibration machine
- shockless jolting machine
- shopfloor machine
- shopworn machine
- show machine
- shredding machine for wood wool production
- shredding machine
- side hole drilling machine
- side-milling machine
- side-planing machine
- sieving machine
- simple-to-operate automatic machine
- simple-to-operate machine
- simplex milling machine
- simplex multiple-spindle machine
- simulation machine
- simultaneous 5-axis machine
- single wheel lapping machine
- single-address machine
- single-axis machine
- single-blade sawing machine
- single-end boring machine
- single-end centering and end-facing machine
- single-end machine
- single-end tenoning machine
- single-ended boring machine
- single-ended machine
- single-function machine
- single-gantry machine
- single-head machine
- single-hitb machine
- single-operation transfer machine
- single-piece machine
- single-point cutting-off machine
- single-position metal forming machine
- single-purpose machine
- single-shift machine
- single-shifted machine
- single-slide bed-type machine
- single-spindle machine
- single-station machine
- single-task machine
- single-upright machine
- singlex machine
- sinking machine
- six-axis NC machine
- sizing machine
- skin-milling machine
- skiving machine
- slabbing machine
- slab-milling machine
- slant-carriage machine
- slant-slide machine
- slave machine
- slicing machine
- slideway-grinding machine
- sliding bush machine
- sliding head machine
- sliding head milling machine
- sliding head/fixed spindle machine
- sliding headstock bar machine
- sliding headstock machine
- slinger molding machine
- slitting machine
- slot and keyway milling machine
- slot-drilling machine
- slot-milling machine
- slotting machine
- small capacity machine
- small-chuck machine
- small-envelope machine
- small-footprint machine
- small-parts machine
- smooth planing machine
- snagging grinding machine
- soft bearing balancing machine
- software-controlled machine
- software-oriented machine
- soldering machine
- solid bed-type milling machine
- sorting machine
- spar milling machine
- spark erosion machine
- spark machine
- special design machine
- special unit machine
- special way-type machine
- specialist machine
- specialized machine
- special-purpose machine
- specialty machine
- speed reduction machine
- spherical grinding machine
- spindle turning machine
- spinning machine
- spiral drive planing machine
- spline cold rolling machine
- spline shaft grinding machine
- spline shaft hobbing machine
- spline-broaching machine
- spline-grinding machine
- spline-hobbing machine
- spline-milling machine
- splining machine
- spring end grinding machine
- spring forming machine
- spring manufacturing machine
- spring testing machine
- spring-coiling machine
- spring-making machine
- spring-winding machine
- spur-and-helical grinding machine
- square milling machine
- squeeze core-making machine
- squeeze molding machine
- squeezing machine
- squirrel cage balancing machine
- SR machine
- stack-routing machine
- stamping machine
- standalone machine
- standard configuration machine
- standard design machine
- standard machine
- standard-unit-type machine
- static balancing machine
- station-type machine
- storage retrieval machine
- straight line milling machine
- straightening machine
- strength testing machine
- stress-relieving machine
- stress-rupture testing machine
- stretch straightening machine
- strip leveling machine
- stud thread rolling machine
- studding machine
- subspindle turning machine
- subspindle-equipped turning machine
- subspindle-type machine
- super-accurate machine
- supercharged laser cutting machine
- superfinishing machine for centerless plunge-cut
- superfinishing machine for centerless throughfeed
- superfinishing machine
- surface and profile grinding machine
- surface-broaching machine
- surface-grinding machine with long table
- surface-grinding machine with two columns
- surface-grinding machine
- surface-milling machine
- surface-treatment machine
- swage machine
- swaging machine
- swing frame grinding machine
- Swiss bar machine
- Swiss screw machine
- Swiss sliding headstock machine
- Swiss-style sliding-headstock machine
- Swiss-style sliding-headstock-type machine
- Swiss-type cam automatic screw machine
- Swiss-type machine
- Swiss-type movable headstock automatic screw machine
- Swiss-type stationary headstock automatic screw machine
- swivel head milling machine
- swivel head slotting machine
- synchronous transfer machine
- synchronous-feed machine
- system machine
- system-ready machine
- systems-compatible machine
- tabletop machine
- table-type machine
- table-uo broaching machine
- tabulating machine
- tailored machine
- tandem table machine
- tap flute milling machine
- tap fluting machine
- tap-drill machine
- tape finishing machine
- tape machine
- tape preparation machine
- tape-controlled machine
- tape-handling machine
- taper strip milling machine
- tap-grinding machine
- tapping machine
- tap-sharpening machine
- targeted machine
- teaching machine
- TEM machine
- template-controlled machine
- tenoning machine
- tensile strength testing machine
- tensile testing machine
- tension testing machine
- test machine
- test sieving machine
- testing machine
- texturing machine
- thermal cutting machine
- thermal deburrting machine
- thermally symmetric machine
- thermally symmetrical machine
- thermoelectric machine
- thread chaser grinding machine
- thread-cutting machine
- threaded wheel grinding machine
- thread-generating machine
- thread-grinding machine
- threading machine
- thread-milling machine
- thread-producing machine
- thread-rolling machine with roller and segmented die
- thread-rolling machine
- thread-tapping machine
- thread-turning machine
- thread-whirling machine
- three-axis checking machine
- three-axis digital read-out inspection machine
- three-axis NC machine
- three-axis-controlled machine
- three-dimensional forming machine
- three-dimensional NC machine
- three-dimensional profiling machine
- three-roll bending machine
- three-roll forming machine
- three-roll sheet bending machine
- three-shift machine
- three-shifted machine
- three-way machine
- tiering machine
- tilt frame machine
- tilting body slotting machine
- tilting column machine
- tilting spindle grinding machine
- tilting spindle machine
- time-tested machine
- TL machine
- TNC-milling machine
- tool and diemaker's milling machine
- tool changer machine
- tool presetting and inspection machine
- tool presetting machine
- tool-and-cutter grinding machine
- tool-grinding machine
- toolroom machine
- toolroom-milling machine
- tool-setting machine
- tooth generating machine
- tooth rounding-and-chamfering machine
- top-of-the-line machine
- torsion testing machine
- totally automated machine
- totally enclosed machine
- touch-trigger machine
- T-planer type machine
- tracer controlled machine
- tracer milling machine
- tracer-controlled electrical discharge profiling machine
- tracer-controlled milling machine
- tracer-guided machine
- tracer-guided milling machine
- tracing machine
- transfer-line-ready machine
- transfer-segmented machine
- transfer-type machine
- transport machine
- transverse planing machine
- traveling bar-type boring machine
- traveling bridge-type plano-milling machine
- traveling column machine
- traveling column-type machine
- traveling gantry machine
- traveling head shaping machine
- traveling portal milling machine
- traveling table machine
- traveling table-type machine
- traveling wire electrical discharge machine
- traveling-head boring machine
- traveling-head surface grinding machine
- traverse grinding machine
- traversing head shaping machine
- trimming machine
- trip dog-controlled machine
- triplex milling machine
- trunnion machine
- trunnion-style machine
- trunnion-type machine
- T-slot milling machine
- tube cutoff machine
- tube grinding-and-polishing machine
- tube-bending machine
- tube-boring machine
- tube-chamfering machine
- tube-drawing machine
- tube-enlarging machine
- tube-forming machine
- tube-sawing machine
- tube-straightening machine
- tube-welding machine
- tumbling machine
- turbine shot-blasting machine
- turbine slot milling machine
- turn/mill machine
- turn, bore and cut-off machine
- turn-broaching machine
- turning machine
- turning, milling and boring machine
- turning-and-boring machine
- turn-mill machine
- turn-peeling machine
- turret hole punching machine
- turret machine
- turret press machine
- turret ram milling machine
- turret screw machine
- turret-chucking machine
- turret-drilling machine
- turret-milling machine
- turret-punching machine
- turret-type drilling machine
- twin pallet machine
- twin screw knee-type machine
- twin six-station turret machine
- twin-head machine
- twin-head shaping machine
- twin-opposed spindle turning machine
- twin-overarm milling machine
- twin-spindle machine
- twin-turret machine
- twist drill flute grinding machine
- twist drill fluting machine
- twist drill grinding machine
- twist drill milling machine
- twist drill point grinding machine
- twist test machine
- two-address machine
- two-axis NC machine
- two-axis-controlled machine
- two-dimensional engraving machine
- two-plane balancing machine
- two-roll sheet bending machine
- two-shift machine
- two-shifted machine
- two-tool machine
- two-way broaching machine
- two-way drilling machine
- two-way machine
- tybe-reducing machine
- typical machine
- ultra precision machine
- ultra-high precision machine
- ultra-high speed machine
- ultrasonic cleaning and degreasing machine
- ultrasonic cleaning machine
- ultrasonic copy-piercing machine
- ultrasonic drilling machine
- ultrasonic hole-contouring machine
- undedicated machine
- underdesigned machine
- underutilized machine
- unit construction machine
- unit-built machine
- unit-changeable machine
- unit-type machine
- universal boring machine
- universal cutter and tool grinding machine
- universal head milling machine
- universal horizontal milling machine
- universal knee-type milling machine
- universal milling machine
- universal rotaty table grinding machine
- universal table grinding machine
- universal testing machine
- universal tool and die milling machine
- universal tool milling and boring machine
- universal toolroom milling machine
- universal-spindle machine
- unmanned machine
- unmanned measuring machine
- unmanned turning machine
- upgradable machine
- uprated machine
- upright boring machine
- upright drilling machine
- upright drilling-and-boring machine
- upsetting machine
- used machine
- user-friendly machine
- utrasonic lapping machine
- valve seat lapping machine
- valve seat milling machine
- vehicle-mounted machine
- vending machine
- veneer slicing machine
- versatile machine
- vertical arm measuring machine
- vertical band machine
- vertical band-saw machine
- vertical band-sawing machine
- vertical bed machine
- vertical boring machine
- vertical broaching machine
- vertical chucking machine
- vertical double-ram broaching machine
- vertical double-slide broaching machine
- vertical drilling machine
- vertical machine
- vertical milling machine
- vertical planing machine
- vertical plano-milling machine
- vertical pull-up broaching machine
- vertical push-broaching machine
- vertical ram machine
- vertical slotting machine
- vertical spindle surface-grinding machine
- vertical turning machine
- vertical turning-and-boring machine
- vertical/horizontal machine
- vertically oriented drilling machine
- vertical-type machine
- vibration fatigue testing machine
- vibration machine
- vibratory finishing machine
- vibrofinishing machine
- Vickers hardness machine
- Vickers pyramid hardness machine
- vision-controlled machine
- volume production machine
- walking machine
- wall machine
- washing drying machine
- washing machine
- watch-case making machine
- watch-gear hobbing machine
- watch-gear making machine
- water jet cutting machine
- water-jet machine
- way-type machine
- way-type unit head machine
- weathering machine
- weighing machine
- welding machine
- well-developed machine
- wet-cutting machine
- wet-grinding machine
- wheel turning machine
- whirling machine
- wide belt sending machine
- wire bonding machine
- wire brush deburring machine
- wire coiling and winding machine
- wire cutting-off machine
- wire drawing machine
- wire EDM machine
- wire erosion machine
- wire netting and weaving machine
- wire-cut EDM machine
- wire-cut electrical discharge machine
- wire-cut machine
- wire-cutting machine
- wire-cutting spark erosion machine
- wire-eroding machine
- wire-forming machine
- wire-making machine
- wire-polishing machine
- wire-straightening machine
- woodsawing machine
- woodworking machine
- workpiece moving-type machine
- worm grinding machine
- worm milling machine
- wrist-pin boring machine
- xerox machine
- X-ray machine

Bibliography

 ■ Aitchison, J. (1987). Noam Chomsky: Consensus and controversy. New York: Falmer Press.

 ■ Anderson, J. R. (1980). Cognitive psychology and its implications. San Francisco: W. H. Freeman.

 ■ Anderson, J. R. (1983). The architecture of cognition. Cambridge, MA: Harvard University Press.

 ■ Anderson, J. R. (1995). Cognitive psychology and its implications (4th ed.). New York: W. H. Freeman.

 ■ Archilochus (1971). In M. L. West (Ed.), Iambi et elegi graeci (Vol. 1). Oxford: Oxford University Press.

 ■ Armstrong, D. M. (1990). The causal theory of the mind. In W. G. Lycan (Ed.), Mind and cognition: A reader (pp. 37-47). Cambridge, MA: Basil Blackwell. (Originally published in 1981 in The nature of mind and other essays, Ithaca, NY: University Press).

 ■ Atkins, P. W. (1992). Creation revisited. Oxford: W. H. Freeman & Company.

 ■ Austin, J. L. (1962). How to do things with words. Cambridge, MA: Harvard University Press.

 ■ Bacon, F. (1878). Of the proficience and advancement of learning divine and human. In The works of Francis Bacon (Vol. 1). Cambridge, MA: Hurd & Houghton.

 ■ Bacon, R. (1928). Opus majus (Vol. 2). R. B. Burke (Trans.). Philadelphia, PA: University of Pennsylvania Press.

 ■ Bar-Hillel, Y. (1960). The present status of automatic translation of languages. In F. L. Alt (Ed.), Advances in computers (Vol. 1). New York: Academic Press.

 ■ Barr, A., & E. A. Feigenbaum (Eds.) (1981). The handbook of artificial intelligence (Vol. 1). Reading, MA: Addison-Wesley.

 ■ Barr, A., & E. A. Feigenbaum (Eds.) (1982). The handbook of artificial intelligence (Vol. 2). Los Altos, CA: William Kaufman.

 ■ Barron, F. X. (1963). The needs for order and for disorder as motives in creative activity. In C. W. Taylor & F. X. Barron (Eds.), Scientific creativity: Its rec ognition and development (pp. 153-160). New York: Wiley.

 ■ Bartlett, F. C. (1932). Remembering: A study in experimental and social psychology. Cambridge: Cambridge University Press.

 ■ Bartley, S. H. (1969). Principles of perception. London: Harper & Row.

 ■ Barzun, J. (1959). The house of intellect. New York: Harper & Row.

 ■ Beach, F. A., D. O. Hebb, C. T. Morgan & H. W. Nissen (Eds.) (1960). The neu ropsychology of Lashley. New York: McGraw-Hill.

 ■ Berkeley, G. (1996). Principles of human knowledge: Three Dialogues. Oxford: Oxford University Press. (Originally published in 1710.)

 ■ Berlin, I. (1953). The hedgehog and the fox: An essay on Tolstoy's view of history. NY: Simon & Schuster.

 ■ Bierwisch, J. (1970). Semantics. In J. Lyons (Ed.), New horizons in linguistics. Baltimore: Penguin Books.

 ■ Black, H. C. (1951). Black's law dictionary. St. Paul, MN: West Publishing.

 ■ Bloom, A. (1981). The linguistic shaping of thought: A study in the impact of language on thinking in China and the West. Hillsdale, NJ: Erlbaum.

 ■ Bobrow, D. G., & D. A. Norman (1975). Some principles of memory schemata. In D. G. Bobrow & A. Collins (Eds.), Representation and understanding: Stud ies in Cognitive Science (pp. 131-149). New York: Academic Press.

 ■ Boden, M. A. (1977). Artificial intelligence and natural man. New York: Basic Books.

 ■ Boden, M. A. (1981). Minds and mechanisms. Ithaca, NY: Cornell University Press.

 ■ Boden, M. A. (1990a). The creative mind: Myths and mechanisms. London: Cardinal.

 ■ Boden, M. A. (1990b). The philosophy of artificial intelligence. Oxford: Oxford University Press.

 ■ Boden, M. A. (1994). Precis of The creative mind: Myths and mechanisms. Behavioral and brain sciences 17, 519-570.

 ■ Boden, M. (1996). Creativity. In M. Boden (Ed.), Artificial Intelligence (2nd ed.). San Diego: Academic Press.

 ■ Bolter, J. D. (1984). Turing's man: Western culture in the computer age. Chapel Hill, NC: University of North Carolina Press.

 ■ Bolton, N. (1972). The psychology of thinking. London: Methuen.

 ■ Bourne, L. E. (1973). Some forms of cognition: A critical analysis of several papers. In R. Solso (Ed.), Contemporary issues in cognitive psychology (pp. 313324). Loyola Symposium on Cognitive Psychology (Chicago 1972). Washington, DC: Winston.

 ■ Bransford, J. D., N. S. McCarrell, J. J. Franks & K. E. Nitsch (1977). Toward unexplaining memory. In R. Shaw & J. D. Bransford (Eds.), Perceiving, acting, and knowing (pp. 431-466). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Breger, L. (1981). Freud's unfinished journey. London: Routledge & Kegan Paul.

 ■ Brehmer, B. (1986). In one word: Not from experience. In H. R. Arkes & K. Hammond (Eds.), Judgment and decision making: An interdisciplinary reader (pp. 705-719). Cambridge: Cambridge University Press.

 ■ Bresnan, J. (1978). A realistic transformational grammar. In M. Halle, J. Bresnan & G. A. Miller (Eds.), Linguistic theory and psychological reality (pp. 1-59). Cambridge, MA: MIT Press.

 ■ Brislin, R. W., W. J. Lonner & R. M. Thorndike (Eds.) (1973). Cross- cultural research methods. New York: Wiley.

 ■ Bronowski, J. (1977). A sense of the future: Essays in natural philosophy. P. E. Ariotti with R. Bronowski (Eds.). Cambridge, MA: MIT Press.

 ■ Bronowski, J. (1978). The origins of knowledge and imagination. New Haven, CT: Yale University Press.

 ■ Brown, R. O. (1973). A first language: The early stages. Cambridge, MA: Harvard University Press.

 ■ Brown, T. (1970). Lectures on the philosophy of the human mind. In R. Brown (Ed.), Between Hume and Mill: An anthology of British philosophy- 1749- 1843 (pp. 330-387). New York: Random House/Modern Library.

 ■ Bruner, J. S., J. Goodnow & G. Austin (1956). A study of thinking. New York: Wiley.

 ■ Calvin, W. H. (1990). The cerebral symphony: Seashore reflections on the structure of consciousness. New York: Bantam.

 ■ Campbell, J. (1982). Grammatical man: Information, entropy, language, and life. New York: Simon & Schuster.

 ■ Campbell, J. (1989). The improbable machine. New York: Simon & Schuster.

 ■ Carlyle, T. (1966). On heroes, hero- worship and the heroic in history. Lincoln: University of Nebraska Press. (Originally published in 1841.)

 ■ Carnap, R. (1959). The elimination of metaphysics through logical analysis of language [Ueberwindung der Metaphysik durch logische Analyse der Sprache]. In A. J. Ayer (Ed.), Logical positivism (pp. 60-81) A. Pap (Trans). New York: Free Press. (Originally published in 1932.)

 ■ Cassirer, E. (1946). Language and myth. New York: Harper and Brothers. Reprinted. New York: Dover Publications, 1953.

 ■ Cattell, R. B., & H. J. Butcher (1970). Creativity and personality. In P. E. Vernon (Ed.), Creativity. Harmondsworth, England: Penguin Books.

 ■ Caudill, M., & C. Butler (1990). Naturally intelligent systems. Cambridge, MA: MIT Press/Bradford Books.

 ■ Chandrasekaran, B. (1990). What kind of information processing is intelligence? A perspective on AI paradigms and a proposal. In D. Partridge & R. Wilks (Eds.), The foundations of artificial intelligence: A sourcebook (pp. 14-46). Cambridge: Cambridge University Press.

 ■ Charniak, E., & McDermott, D. (1985). Introduction to artificial intelligence. Reading, MA: Addison-Wesley.

 ■ Chase, W. G., & H. A. Simon (1988). The mind's eye in chess. In A. Collins & E. E. Smith (Eds.), Readings in cognitive science: A perspective from psychology and artificial intelligence (pp. 461-493). San Mateo, CA: Kaufmann.

 ■ Cheney, D. L., & R. M. Seyfarth (1990). How monkeys see the world: Inside the mind of another species. Chicago: University of Chicago Press.

 ■ Chi, M.T.H., R. Glaser & E. Rees (1982). Expertise in problem solving. In R. J. Sternberg (Ed.), Advances in the psychology of human intelligence (pp. 7-73). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Chomsky, N. (1957). Syntactic structures. The Hague: Mouton. Janua Linguarum.

 ■ Chomsky, N. (1964). A transformational approach to syntax. In J. A. Fodor & J. J. Katz (Eds.), The structure of language: Readings in the philosophy of lan guage (pp. 211-245). Englewood Cliffs, NJ: Prentice-Hall.

 ■ Chomsky, N. (1965). Aspects of the theory of syntax. Cambridge, MA: MIT Press.

 ■ Chomsky, N. (1972). Language and mind (enlarged ed.). New York: Harcourt Brace Jovanovich.

 ■ Chomsky, N. (1979). Language and responsibility. New York: Pantheon.

 ■ Chomsky, N. (1986). Knowledge of language: Its nature, origin and use. New York: Praeger Special Studies.

 ■ Churchland, P. (1979). Scientific realism and the plasticity of mind. New York: Cambridge University Press.

 ■ Churchland, P. M. (1989). A neurocomputational perspective: The nature of mind and the structure of science. Cambridge, MA: MIT Press.

 ■ Churchland, P. S. (1986). Neurophilosophy. Cambridge, MA: MIT Press/Bradford Books.

 ■ Clark, A. (1996). Philosophical Foundations. In M. A. Boden (Ed.), Artificial in telligence (2nd ed.). San Diego: Academic Press.

 ■ Clark, H. H., & T. B. Carlson (1981). Context for comprehension. In J. Long & A. Baddeley (Eds.), Attention and performance (Vol. 9, pp. 313-330). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Clarke, A. C. (1984). Profiles of the future: An inquiry into the limits of the possible. New York: Holt, Rinehart & Winston.

 ■ Claxton, G. (1980). Cognitive psychology: A suitable case for what sort of treatment? In G. Claxton (Ed.), Cognitive psychology: New directions (pp. 1-25). London: Routledge & Kegan Paul.

 ■ Code, M. (1985). Order and organism. Albany, NY: State University of New York Press.

 ■ Collingwood, R. G. (1972). The idea of history. New York: Oxford University Press.

 ■ Coopersmith, S. (1967). The antecedents of self- esteem. San Francisco: W. H. Freeman.

 ■ Copland, A. (1952). Music and imagination. London: Oxford University Press.

 ■ Coren, S. (1994). The intelligence of dogs. New York: Bantam Books.

 ■ Cottingham, J. (Ed.) (1996). Western philosophy: An anthology. Oxford: Blackwell Publishers.

 ■ Cox, C. (1926). The early mental traits of three hundred geniuses. Stanford, CA: Stanford University Press.

 ■ Craik, K.J.W. (1943). The nature of explanation. Cambridge: Cambridge University Press.

 ■ Cronbach, L. J. (1990). Essentials of psychological testing (5th ed.). New York: HarperCollins.

 ■ Cronbach, L. J., & R. E. Snow (1977). Aptitudes and instructional methods. New York: Irvington. Paperback edition, 1981.

 ■ Csikszentmihalyi, M. (1993). The evolving self. New York: Harper Perennial.

 ■ Culler, J. (1976). Ferdinand de Saussure. New York: Penguin Books.

 ■ Curtius, E. R. (1973). European literature and the Latin Middle Ages. W. R. Trask (Trans.). Princeton, NJ: Princeton University Press.

 ■ D'Alembert, J.L.R. (1963). Preliminary discourse to the encyclopedia of Diderot. R. N. Schwab (Trans.). Indianapolis: Bobbs-Merrill.

 ■ Damasio, A. (1994). Descartes' error: Emotion, reason, and the human brain. New York: Avon.

 ■ Dampier, W. C. (1966). A history of modern science. Cambridge: Cambridge University Press.

 ■ Darwin, C. (1911). The life and letters of Charles Darwin (Vol. 1). Francis Darwin (Ed.). New York: Appleton.

 ■ Davidson, D. (1970) Mental events. In L. Foster & J. W. Swanson (Eds.), Experience and theory (pp. 79-101). Amherst: University of Massachussetts Press.

 ■ Davies, P. (1995). About time: Einstein's unfinished revolution. New York: Simon & Schuster/Touchstone.

 ■ Davis, R., & J. J. King (1977). An overview of production systems. In E. Elcock & D. Michie (Eds.), Machine intelligence 8. Chichester, England: Ellis Horwood.

 ■ Davis, R., & D. B. Lenat (1982). Knowledge- based systems in artificial intelligence. New York: McGraw-Hill.

 ■ Dawkins, R. (1982). The extended phenotype: The gene as the unit of selection. Oxford: W. H. Freeman.

 ■ deKleer, J., & J. S. Brown (1983). Assumptions and ambiguities in mechanistic mental models (1983). In D. Gentner & A. L. Stevens (Eds.), Mental modes (pp. 155-190). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Dennett, D. C. (1978a). Brainstorms: Philosophical essays on mind and psychology. Montgomery, VT: Bradford Books.

 ■ Dennett, D. C. (1978b). Toward a cognitive theory of consciousness. In D. C. Dennett, Brainstorms: Philosophical Essays on Mind and Psychology. Montgomery, VT: Bradford Books.

 ■ Dennett, D. C. (1995). Darwin's dangerous idea: Evolution and the meanings of life. New York: Simon & Schuster/Touchstone.

 ■ Descartes, R. (1897-1910). Traite de l'homme. In Oeuvres de Descartes (Vol. 11, pp. 119-215). Paris: Charles Adam & Paul Tannery. (Originally published in 1634.)

 ■ Descartes, R. (1950). Discourse on method. L. J. Lafleur (Trans.). New York: Liberal Arts Press. (Originally published in 1637.)

 ■ Descartes, R. (1951). Meditation on first philosophy. L. J. Lafleur (Trans.). New York: Liberal Arts Press. (Originally published in 1641.)

 ■ Descartes, R. (1955). The philosophical works of Descartes. E. S. Haldane and G.R.T. Ross (Trans.). New York: Dover. (Originally published in 1911 by Cambridge University Press.)

 ■ Descartes, R. (1967). Discourse on method (Pt. V). In E. S. Haldane and G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 106-118). Cambridge: Cambridge University Press. (Originally published in 1637.)

 ■ Descartes, R. (1970a). Discourse on method. In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 181-200). Cambridge: Cambridge University Press. (Originally published in 1637.)

 ■ Descartes, R. (1970b). Principles of philosophy. In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 1, pp. 178-291). Cambridge: Cambridge University Press. (Originally published in 1644.)

 ■ Descartes, R. (1984). Meditations on first philosophy. In J. Cottingham, R. Stoothoff & D. Murduch (Trans.), The philosophical works of Descartes (Vol. 2). Cambridge: Cambridge University Press. (Originally published in 1641.)

 ■ Descartes, R. (1986). Meditations on first philosophy. J. Cottingham (Trans.). Cambridge: Cambridge University Press. (Originally published in 1641 as Med itationes de prima philosophia.)

 ■ deWulf, M. (1956). An introduction to scholastic philosophy. Mineola, NY: Dover Books.

 ■ Dixon, N. F. (1981). Preconscious processing. London: Wiley.

 ■ Doyle, A. C. (1986). The Boscombe Valley mystery. In Sherlock Holmes: The com plete novels and stories (Vol. 1). New York: Bantam.

 ■ Dreyfus, H., & S. Dreyfus (1986). Mind over machine. New York: Free Press.

 ■ Dreyfus, H. L. (1972). What computers can't do: The limits of artificial intelligence (revised ed.). New York: Harper & Row.

 ■ Dreyfus, H. L., & S. E. Dreyfus (1986). Mind over machine: The power of human intuition and expertise in the era of the computer. New York: Free Press.

 ■ Edelman, G. M. (1992). Bright air, brilliant fire: On the matter of the mind. New York: Basic Books.

 ■ Ehrenzweig, A. (1967). The hidden order of art. London: Weidenfeld & Nicolson.

 ■ Einstein, A., & L. Infeld (1938). The evolution of physics. New York: Simon & Schuster.

 ■ Eisenstein, S. (1947). Film sense. New York: Harcourt, Brace & World.

 ■ Everdell, W. R. (1997). The first moderns. Chicago: University of Chicago Press.

 ■ Eysenck, M. W. (1977). Human memory: Theory, research and individual difference. Oxford: Pergamon.

 ■ Eysenck, M. W. (1982). Attention and arousal: Cognition and performance. Berlin: Springer.

 ■ Eysenck, M. W. (1984). A handbook of cognitive psychology. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Fancher, R. E. (1979). Pioneers of psychology. New York: W. W. Norton.

 ■ Farrell, B. A. (1981). The standing of psychoanalysis. New York: Oxford University Press.

 ■ Feldman, D. H. (1980). Beyond universals in cognitive development. Norwood, NJ: Ablex.

 ■ Fetzer, J. H. (1996). Philosophy and cognitive science (2nd ed.). New York: Paragon House.

 ■ Finke, R. A. (1990). Creative imagery: Discoveries and inventions in visualization. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Flanagan, O. (1991). The science of the mind. Cambridge MA: MIT Press/Bradford Books.

 ■ Fodor, J. (1983). The modularity of mind. Cambridge, MA: MIT Press/Bradford Books.

 ■ Frege, G. (1972). Conceptual notation. T. W. Bynum (Trans.). Oxford: Clarendon Press. (Originally published in 1879.)

 ■ Frege, G. (1979). Logic. In H. Hermes, F. Kambartel & F. Kaulbach (Eds.), Gottlob Frege: Posthumous writings. Chicago: University of Chicago Press. (Originally published in 1879-1891.)

 ■ Freud, S. (1959). Creative writers and day-dreaming. In J. Strachey (Ed.), The standard edition of the complete psychological works of Sigmund Freud (Vol. 9, pp. 143-153). London: Hogarth Press.

 ■ Freud, S. (1966). Project for a scientific psychology. In J. Strachey (Ed.), The stan dard edition of the complete psychological works of Sigmund Freud (Vol. 1, pp. 295-398). London: Hogarth Press. (Originally published in 1950 as Aus den AnfaЁngen der Psychoanalyse, in London by Imago Publishing.)

 ■ Freud, S. (1976). Lecture 18-Fixation to traumas-the unconscious. In J. Strachey (Ed.), The standard edition of the complete psychological works of Sigmund Freud (Vol. 16, p. 285). London: Hogarth Press.

 ■ Galileo, G. (1990). Il saggiatore [The assayer]. In S. Drake (Ed.), Discoveries and opinions of Galileo. New York: Anchor Books. (Originally published in 1623.)

 ■ Gassendi, P. (1970). Letter to Descartes. In "Objections and replies." In E. S. Haldane & G.R.T. Ross (Eds.), The philosophical works of Descartes (Vol. 2, pp. 179-240). Cambridge: Cambridge University Press. (Originally published in 1641.)

 ■ Gazzaniga, M. S. (1988). Mind matters: How mind and brain interact to create our conscious lives. Boston: Houghton Mifflin in association with MIT Press/Bradford Books.

 ■ Genesereth, M. R., & N. J. Nilsson (1987). Logical foundations of artificial intelligence. Palo Alto, CA: Morgan Kaufmann.

 ■ Ghiselin, B. (1952). The creative process. New York: Mentor.

 ■ Ghiselin, B. (1985). The creative process. Berkeley, CA: University of California Press. (Originally published in 1952.)

 ■ Gilhooly, K. J. (1996). Thinking: Directed, undirected and creative (3rd ed.). London: Academic Press.

 ■ Glass, A. L., K. J. Holyoak & J. L. Santa (1979). Cognition. Reading, MA: AddisonWesley.

 ■ Goody, J. (1977). The domestication of the savage mind. Cambridge: Cambridge University Press.

 ■ Gruber, H. E. (1980). Darwin on man: A psychological study of scientific creativity (2nd ed.). Chicago: University of Chicago Press.

 ■ Gruber, H. E., & S. Davis (1988). Inching our way up Mount Olympus: The evolving systems approach to creative thinking. In R. J. Sternberg (Ed.), The nature of creativity: Contemporary psychological perspectives. Cambridge: Cambridge University Press.

 ■ Guthrie, E. R. (1972). The psychology of learning. New York: Harper. (Originally published in 1935.)

 ■ Habermas, J. (1972). Knowledge and human interests. Boston: Beacon Press.

 ■ Hadamard, J. (1945). The psychology of invention in the mathematical field. Princeton, NJ: Princeton University Press.

 ■ Hand, D. J. (1985). Artificial intelligence and psychiatry. Cambridge: Cambridge University Press.

 ■ Harris, M. (1981). The language myth. London: Duckworth.

 ■ Haugeland, J. (Ed.) (1981). Mind design: Philosophy, psychology, artificial intelligence. Cambridge, MA: MIT Press/Bradford Books.

 ■ Haugeland, J. (1981a). The nature and plausibility of cognitivism. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 243-281). Cambridge, MA: MIT Press.

 ■ Haugeland, J. (1981b). Semantic engines: An introduction to mind design. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 1-34). Cambridge, MA: MIT Press/Bradford Books.

 ■ Haugeland, J. (1985). Artificial intelligence: The very idea. Cambridge, MA: MIT Press.

 ■ Hawkes, T. (1977). Structuralism and semiotics. Berkeley: University of California Press.

 ■ Hebb, D. O. (1949). The organisation of behaviour. New York: Wiley.

 ■ Hebb, D. O. (1958). A textbook of psychology. Philadelphia: Saunders.

 ■ Hegel, G.W.F. (1910). The phenomenology of mind. J. B. Baille (Trans.). London: Sonnenschein. (Originally published as Phaenomenologie des Geistes, 1807.)

 ■ Heisenberg, W. (1958). Physics and philosophy. New York: Harper & Row.

 ■ Hempel, C. G. (1966). Philosophy of natural science. Englewood Cliffs, NJ: PrenticeHall.

 ■ Herman, A. (1997). The idea of decline in Western history. New York: Free Press.

 ■ Herrnstein, R. J., & E. G. Boring (Eds.) (1965). A source book in the history of psy chology. Cambridge, MA: Harvard University Press.

 ■ Herzmann, E. (1964). Mozart's creative process. In P. H. Lang (Ed.), The creative world of Mozart (pp. 17-30). London: Oldbourne Press.

 ■ Hilgard, E. R. (1957). Introduction to psychology. London: Methuen.

 ■ Hobbes, T. (1651). Leviathan. London: Crooke.

 ■ Hofstadter, D. R. (1979). Goedel, Escher, Bach: An eternal golden braid. New York: Basic Books.

 ■ Holliday, S. G., & M. J. Chandler (1986). Wisdom: Explorations in adult competence. Basel, Switzerland: Karger.

 ■ Horn, J. L. (1986). In R. J. Sternberg (Ed.), Advances in the psychology of human intelligence (Vol. 3). Hillsdale, NJ: Erlbaum.

 ■ Hull, C. (1943). Principles of behavior. New York: Appleton-Century-Crofts.

 ■ Hume, D. (1955). An inquiry concerning human understanding. New York: Liberal Arts Press. (Originally published in 1748.)

 ■ Hume, D. (1975). An enquiry concerning human understanding. In L. A. SelbyBigge (Ed.), Hume's enquiries (3rd. ed., revised P. H. Nidditch). Oxford: Clarendon. (Spelling and punctuation revised.) (Originally published in 1748.)

 ■ Hume, D. (1978). A treatise of human nature. L. A. Selby-Bigge (Ed.), Hume's enquiries (3rd. ed., revised P. H. Nidditch). Oxford: Clarendon. (With some modifications of spelling and punctuation.) (Originally published in 1690.)

 ■ Hunt, E. (1973). The memory we must have. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language. (pp. 343-371) San Francisco: W. H. Freeman.

 ■ Husserl, E. (1960). Cartesian meditations. The Hague: Martinus Nijhoff.

 ■ Inhelder, B., & J. Piaget (1958). The growth of logical thinking from childhood to adolescence. New York: Basic Books. (Originally published in 1955 as De la logique de l'enfant a` la logique de l'adolescent. [Paris: Presses Universitaire de France])

 ■ James, W. (1890a). The principles of psychology (Vol. 1). New York: Dover Books.

 ■ James, W. (1890b). The principles of psychology. New York: Henry Holt.

 ■ Jevons, W. S. (1900). The principles of science (2nd ed.). London: Macmillan.

 ■ Johnson, G. (1986). Machinery of the mind: Inside the new science of artificial intelli gence. New York: Random House.

 ■ Johnson, M. L. (1988). Mind, language, machine. New York: St. Martin's Press.

 ■ Johnson-Laird, P. N. (1983). Mental models: Toward a cognitive science of language, inference, and consciousness. Cambridge, MA: Harvard University Press.

 ■ Johnson-Laird, P. N. (1988). The computer and the mind: An introduction to cognitive science. Cambridge, MA: Harvard University Press.

 ■ Jones, E. (1961). The life and work of Sigmund Freud. L. Trilling & S. Marcus (Eds.). London: Hogarth.

 ■ Jones, R. V. (1985). Complementarity as a way of life. In A. P. French & P. J. Kennedy (Eds.), Niels Bohr: A centenary volume. Cambridge, MA: Harvard University Press.

 ■ Kant, I. (1933). Critique of Pure Reason (2nd ed.). N. K. Smith (Trans.). London: Macmillan. (Originally published in 1781 as Kritik der reinen Vernunft.)

 ■ Kant, I. (1891). Solution of the general problems of the Prolegomena. In E. Belfort (Trans.), Kant's Prolegomena. London: Bell. (With minor modifications.) (Originally published in 1783.)

 ■ Katona, G. (1940). Organizing and memorizing: Studies in the psychology of learning and teaching. New York: Columbia University Press.

 ■ Kaufman, A. S. (1979). Intelligent testing with the WISC-R. New York: Wiley.

 ■ Koestler, A. (1964). The act of creation. New York: Arkana (Penguin).

 ■ Kohlberg, L. (1971). From is to ought. In T. Mischel (Ed.), Cognitive development and epistemology. (pp. 151-235) New York: Academic Press.

 ■ KoЁhler, W. (1925). The mentality of apes. New York: Liveright.

 ■ KoЁhler, W. (1927). The mentality of apes (2nd ed.). Ella Winter (Trans.). London: Routledge & Kegan Paul.

 ■ KoЁhler, W. (1930). Gestalt psychology. London: G. Bell.

 ■ KoЁhler, W. (1947). Gestalt psychology. New York: Liveright.

 ■ KoЁhler, W. (1969). The task of Gestalt psychology. Princeton, NJ: Princeton University Press.

 ■ Kuhn, T. (1970). The structure of scientific revolutions (2nd ed.). Chicago: University of Chicago Press.

 ■ Langer, E. J. (1989). Mindfulness. Reading, MA: Addison-Wesley.

 ■ Langer, S. (1962). Philosophical sketches. Baltimore: Johns Hopkins University Press.

 ■ Langley, P., H. A. Simon, G. L. Bradshaw & J. M. Zytkow (1987). Scientific dis covery: Computational explorations of the creative process. Cambridge, MA: MIT Press.

 ■ Lashley, K. S. (1951). The problem of serial order in behavior. In L. A. Jeffress (Ed.), Cerebral mechanisms in behavior, the Hixon Symposium (pp. 112-146) New York: Wiley.

 ■ LeDoux, J. E., & W. Hirst (1986). Mind and brain: Dialogues in cognitive neuroscience. Cambridge: Cambridge University Press.

 ■ Lehnert, W. (1978). The process of question answering. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Leiber, J. (1991). Invitation to cognitive science. Oxford: Blackwell.

 ■ Lenat, D. B., & G. Harris (1978). Designing a rule system that searches for scientific discoveries. In D. A. Waterman & F. Hayes-Roth (Eds.), Pattern directed inference systems (pp. 25-52) New York: Academic Press.

 ■ Levenson, T. (1995). Measure for measure: A musical history of science. New York: Touchstone. (Originally published in 1994.)

 ■ Leґvi-Strauss, C. (1963). Structural anthropology. C. Jacobson & B. Grundfest Schoepf (Trans.). New York: Basic Books. (Originally published in 1958.)

 ■ Levine, M. W., & J. M. Schefner (1981). Fundamentals of sensation and perception. London: Addison-Wesley.

 ■ Lewis, C. I. (1946). An analysis of knowledge and valuation. LaSalle, IL: Open Court.

 ■ Lighthill, J. (1972). A report on artificial intelligence. Unpublished manuscript, Science Research Council.

 ■ Lipman, M., A. M. Sharp & F. S. Oscanyan (1980). Philosophy in the classroom. Philadelphia: Temple University Press.

 ■ Lippmann, W. (1965). Public opinion. New York: Free Press. (Originally published in 1922.)

 ■ Locke, J. (1956). An essay concerning human understanding. Chicago: Henry Regnery Co. (Originally published in 1690.)

 ■ Locke, J. (1975). An essay concerning human understanding. P. H. Nidditch (Ed.). Oxford: Clarendon. (Originally published in 1690.) (With spelling and punctuation modernized and some minor modifications of phrasing.)

 ■ Lopate, P. (1994). The art of the personal essay. New York: Doubleday/Anchor Books.

 ■ Lorimer, F. (1929). The growth of reason. London: Kegan Paul. Machlup, F., & U. Mansfield (Eds.) (1983). The study of information. New York: Wiley.

 ■ Manguel, A. (1996). A history of reading. New York: Viking.

 ■ Margolis, H. (1987). Patterns, thinking, and cognition. Chicago: University of Chicago Press.

 ■ Markey, J. F. (1928). The symbolic process. London: Kegan Paul.

 ■ Martin, R. M. (1969). On Ziff's "Natural and formal languages." In S. Hook (Ed.), Language and philosophy: A symposium (pp. 249-263). New York: New York University Press.

 ■ Mazlish, B. (1993). The fourth discontinuity: the co- evolution of humans and machines. New Haven, CT: Yale University Press.

 ■ McCarthy, J., & P. J. Hayes (1969). Some philosophical problems from the standpoint of artificial intelligence. In B. Meltzer & D. Michie (Eds.), Machine intelligence 4. Edinburgh: Edinburgh University Press.

 ■ McClelland, J. L., D. E. Rumelhart & G. E. Hinton (1986). The appeal of parallel distributed processing. In D. E. Rumelhart, J. L. McClelland & the PDP Research Group (Eds.), Parallel distributed processing: Explorations in the mi crostructure of cognition (Vol. 1, pp. 3-40). Cambridge, MA: MIT Press/ Bradford Books.

 ■ McCorduck, P. (1979). Machines who think. San Francisco: W. H. Freeman.

 ■ McLaughlin, T. (1970). Music and communication. London: Faber & Faber.

 ■ Mednick, S. A. (1962). The associative basis of the creative process. Psychological Review 69, 431-436.

 ■ Meehl, P. E., & C. J. Golden (1982). Taxometric methods. In Kendall, P. C., & Butcher, J. N. (Eds.), Handbook of research methods in clinical psychology (pp. 127-182). New York: Wiley.

 ■ Mehler, J., E.C.T. Walker & M. Garrett (Eds.) (1982). Perspectives on mental rep resentation: Experimental and theoretical studies of cognitive processes and ca pacities. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Mill, J. S. (1900). A system of logic, ratiocinative and inductive: Being a connected view of the principles of evidence and the methods of scientific investigation. London: Longmans, Green.

 ■ Miller, G. A. (1979, June). A very personal history. Talk to the Cognitive Science Workshop, Cambridge, MA.

 ■ Miller, J. (1983). States of mind. New York: Pantheon Books.

 ■ Minsky, M. (1975). A framework for representing knowledge. In P. H. Winston (Ed.), The psychology of computer vision (pp. 211-277). New York: McGrawHill.

 ■ Minsky, M., & S. Papert (1973). Artificial intelligence. Condon Lectures, Oregon State System of Higher Education, Eugene, Oregon.

 ■ Minsky, M. L. (1986). The society of mind. New York: Simon & Schuster.

 ■ Mischel, T. (1976). Psychological explanations and their vicissitudes. In J. K. Cole & W. J. Arnold (Eds.), Nebraska Symposium on motivation (Vol. 23). Lincoln, NB: University of Nebraska Press.

 ■ Morford, M.P.O., & R. J. Lenardon (1995). Classical mythology (5th ed.). New York: Longman.

 ■ Murdoch, I. (1954). Under the net. New York: Penguin.

 ■ Nagel, E. (1959). Methodological issues in psychoanalytic theory. In S. Hook (Ed.), Psychoanalysis, scientific method, and philosophy: A symposium. New York: New York University Press.

 ■ Nagel, T. (1979). Mortal questions. London: Cambridge University Press.

 ■ Nagel, T. (1986). The view from nowhere. Oxford: Oxford University Press.

 ■ Neisser, U. (1967). Cognitive psychology. New York: Appleton-Century-Crofts.

 ■ Neisser, U. (1972). Changing conceptions of imagery. In P. W. Sheehan (Ed.), The function and nature of imagery (pp. 233-251). London: Academic Press.

 ■ Neisser, U. (1976). Cognition and reality. San Francisco: W. H. Freeman.

 ■ Neisser, U. (1978). Memory: What are the important questions? In M. M. Gruneberg, P. E. Morris & R. N. Sykes (Eds.), Practical aspects of memory (pp. 3-24). London: Academic Press.

 ■ Neisser, U. (1979). The concept of intelligence. In R. J. Sternberg & D. K. Detterman (Eds.), Human intelligence: Perspectives on its theory and measurement (pp. 179-190). Norwood, NJ: Ablex.

 ■ Nersessian, N. (1992). How do scientists think? Capturing the dynamics of conceptual change in science. In R. N. Giere (Ed.), Cognitive models of science (pp. 3-44). Minneapolis: University of Minnesota Press.

 ■ Newell, A. (1973a). Artificial intelligence and the concept of mind. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language (pp. 1-60). San Francisco: W. H. Freeman.

 ■ Newell, A. (1973b). You can't play 20 questions with nature and win. In W. G. Chase (Ed.), Visual information processing (pp. 283-310). New York: Academic Press.

 ■ Newell, A., & H. A. Simon (1963). GPS: A program that simulates human thought. In E. A. Feigenbaum & J. Feldman (Eds.), Computers and thought (pp. 279-293). New York & McGraw-Hill.

 ■ Newell, A., & H. A. Simon (1972). Human problem solving. Englewood Cliffs, NJ: Prentice-Hall.

 ■ Nietzsche, F. (1966). Beyond good and evil. W. Kaufmann (Trans.). New York: Vintage. (Originally published in 1885.)

 ■ Nilsson, N. J. (1971). Problem- solving methods in artificial intelligence. New York: McGraw-Hill.

 ■ Nussbaum, M. C. (1978). Aristotle's Princeton University Press. De Motu Anamalium. Princeton, NJ:

 ■ Oersted, H. C. (1920). Thermo-electricity. In Kirstine Meyer (Ed.), H. C. Oersted, Natuurvidenskabelige Skrifter (Vol. 2). Copenhagen: n.p. (Originally published in 1830 in The Edinburgh encyclopaedia.)

 ■ Ong, W. J. (1982). Orality and literacy: The technologizing of the word. London: Methuen.

 ■ Onians, R. B. (1954). The origins of European thought. Cambridge, MA: Cambridge University Press.

 ■ Osgood, C. E. (1960). Method and theory in experimental psychology. New York: Oxford University Press. (Originally published in 1953.)

 ■ Osgood, C. E. (1966). Language universals and psycholinguistics. In J. H. Greenberg (Ed.), Universals of language (2nd ed., pp. 299-322). Cambridge, MA: MIT Press.

 ■ Palmer, R. E. (1969). Hermeneutics. Evanston, IL: Northwestern University Press.

 ■ Peirce, C. S. (1934). Some consequences of four incapacities-Man, a sign. In C. Hartsborne & P. Weiss (Eds.), Collected papers of Charles Saunders Peirce (Vol. 5, pp. 185-189). Cambridge, MA: Harvard University Press.

 ■ Penfield, W. (1959). In W. Penfield & L. Roberts, Speech and brain mechanisms. Princeton, NJ: Princeton University Press.

 ■ Penrose, R. (1994). Shadows of the mind: A search for the missing science of conscious ness. Oxford: Oxford University Press.

 ■ Perkins, D. N. (1981). The mind's best work. Cambridge, MA: Harvard University Press.

 ■ Peterfreund, E. (1986). The heuristic approach to psychoanalytic therapy. In

 ■ J. Reppen (Ed.), Analysts at work, (pp. 127-144). Hillsdale, NJ: Analytic Press.

 ■ Piaget, J. (1952). The origin of intelligence in children. New York: International Universities Press. (Originally published in 1936.)

 ■ Piaget, J. (1954). Le langage et les opeґrations intellectuelles. Proble` mes de psycho linguistique. Symposium de l'Association de Psychologie Scientifique de Langue Francёaise. Paris: Presses Universitaires de France.

 ■ Piaget, J. (1977). Problems of equilibration. In H. E. Gruber & J. J. Voneche (Eds.), The essential Piaget (pp. 838-841). London: Routlege & Kegan Paul. (Originally published in 1975 as L'eґquilibration des structures cognitives [Paris: Presses Universitaires de France].)

 ■ Piaget, J., & B. Inhelder. (1973). Memory and intelligence. New York: Basic Books.

 ■ Pinker, S. (1994). The language instinct. New York: Morrow.

 ■ Pinker, S. (1996). Facts about human language relevant to its evolution. In J.-P. Changeux & J. Chavaillon (Eds.), Origins of the human brain. A symposium of the Fyssen foundation (pp. 262-283). Oxford: Clarendon Press. Planck, M. (1949). Scientific autobiography and other papers. F. Gaynor (Trans.). New York: Philosophical Library.

 ■ Planck, M. (1990). Wissenschaftliche Selbstbiographie. W. Berg (Ed.). Halle, Germany: Deutsche Akademie der Naturforscher Leopoldina.

 ■ Plato (1892). Meno. In The Dialogues of Plato (B. Jowett, Trans.; Vol. 2). New York: Clarendon. (Originally published circa 380 B.C.)

 ■ Poincareґ, H. (1913). Mathematical creation. In The foundations of science. G. B. Halsted (Trans.). New York: Science Press.

 ■ Poincareґ, H. (1921). The foundations of science: Science and hypothesis, the value of science, science and method. G. B. Halstead (Trans.). New York: Science Press.

 ■ Poincareґ, H. (1929). The foundations of science: Science and hypothesis, the value of science, science and method. New York: Science Press.

 ■ Poincareґ, H. (1952). Science and method. F. Maitland (Trans.) New York: Dover.

 ■ Polya, G. (1945). How to solve it. Princeton, NJ: Princeton University Press.

 ■ Polanyi, M. (1958). Personal knowledge. London: Routledge & Kegan Paul.

 ■ Popper, K. (1968). Conjectures and refutations: The growth of scientific knowledge. New York: Harper & Row/Basic Books.

 ■ Popper, K., & J. Eccles (1977). The self and its brain. New York: Springer-Verlag.

 ■ Popper, K. R. (1959). The logic of scientific discovery. London: Hutchinson.

 ■ Putnam, H. (1975). Mind, language and reality: Philosophical papers (Vol. 2). Cambridge: Cambridge University Press.

 ■ Putnam, H. (1987). The faces of realism. LaSalle, IL: Open Court.

 ■ Pylyshyn, Z. W. (1981). The imagery debate: Analog media versus tacit knowledge. In N. Block (Ed.), Imagery (pp. 151-206). Cambridge, MA: MIT Press.

 ■ Pylyshyn, Z. W. (1984). Computation and cognition: Towards a foundation for cog nitive science. Cambridge, MA: MIT Press/Bradford Books.

 ■ Quillian, M. R. (1968). Semantic memory. In M. Minsky (Ed.), Semantic information processing (pp. 216-260). Cambridge, MA: MIT Press.

 ■ Quine, W.V.O. (1960). Word and object. Cambridge, MA: Harvard University Press.

 ■ Rabbitt, P.M.A., & S. Dornic (Eds.). Attention and performance (Vol. 5). London: Academic Press.

 ■ Rawlins, G.J.E. (1997). Slaves of the Machine: The quickening of computer technology. Cambridge, MA: MIT Press/Bradford Books.

 ■ Reid, T. (1970). An inquiry into the human mind on the principles of common sense. In R. Brown (Ed.), Between Hume and Mill: An anthology of British philosophy- 1749- 1843 (pp. 151-178). New York: Random House/Modern Library.

 ■ Reitman, W. (1970). What does it take to remember? In D. A. Norman (Ed.), Models of human memory (pp. 470-510). London: Academic Press.

 ■ Ricoeur, P. (1974). Structure and hermeneutics. In D. I. Ihde (Ed.), The conflict of interpretations: Essays in hermeneutics (pp. 27-61). Evanston, IL: Northwestern University Press.

 ■ Robinson, D. N. (1986). An intellectual history of psychology. Madison: University of Wisconsin Press.

 ■ Rorty, R. (1979). Philosophy and the mirror of nature. Princeton, NJ: Princeton University Press.

 ■ Rosch, E. (1977). Human categorization. In N. Warren (Ed.), Studies in cross cultural psychology (Vol. 1, pp. 1-49) London: Academic Press.

 ■ Rosch, E. (1978). Principles of categorization. In E. Rosch & B. B. Lloyd (Eds.), Cognition and categorization (pp. 27-48). Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rosch, E., & B. B. Lloyd (1978). Principles of categorization. In E. Rosch & B. B. Lloyd (Eds.), Cognition and categorization. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rose, S. (1970). The chemistry of life. Baltimore: Penguin Books.

 ■ Rose, S. (1976). The conscious brain (updated ed.). New York: Random House.

 ■ Rose, S. (1993). The making of memory: From molecules to mind. New York: Anchor Books. (Originally published in 1992)

 ■ Roszak, T. (1994). The cult of information: A neo- Luddite treatise on high- tech, artificial intelligence, and the true art of thinking (2nd ed.). Berkeley: University of California Press.

 ■ Royce, J. R., & W. W. Rozeboom (Eds.) (1972). The psychology of knowing. New York: Gordon & Breach.

 ■ Rumelhart, D. E. (1977). Introduction to human information processing. New York: Wiley.

 ■ Rumelhart, D. E. (1980). Schemata: The building blocks of cognition. In R. J. Spiro, B. Bruce & W. F. Brewer (Eds.), Theoretical issues in reading comprehension. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Rumelhart, D. E., & J. L. McClelland (1986). On learning the past tenses of English verbs. In J. L. McClelland & D. E. Rumelhart (Eds.), Parallel distributed processing: Explorations in the microstructure of cognition (Vol. 2). Cambridge, MA: MIT Press.

 ■ Rumelhart, D. E., P. Smolensky, J. L. McClelland & G. E. Hinton (1986). Schemata and sequential thought processes in PDP models. In J. L. McClelland, D. E. Rumelhart & the PDP Research Group (Eds.), Parallel Distributed Processing (Vol. 2, pp. 7-57). Cambridge, MA: MIT Press.

 ■ Russell, B. (1927). An outline of philosophy. London: G. Allen & Unwin.

 ■ Russell, B. (1961). History of Western philosophy. London: George Allen & Unwin.

 ■ Russell, B. (1965). How I write. In Portraits from memory and other essays. London: Allen & Unwin.

 ■ Russell, B. (1992). In N. Griffin (Ed.), The selected letters of Bertrand Russell (Vol. 1), The private years, 1884- 1914. Boston: Houghton Mifflin. Ryecroft, C. (1966). Psychoanalysis observed. London: Constable.

 ■ Sagan, C. (1978). The dragons of Eden: Speculations on the evolution of human intel ligence. New York: Ballantine Books.

 ■ Salthouse, T. A. (1992). Expertise as the circumvention of human processing limitations. In K. A. Ericsson & J. Smith (Eds.), Toward a general theory of expertise: Prospects and limits (pp. 172-194). Cambridge: Cambridge University Press.

 ■ Sanford, A. J. (1987). The mind of man: Models of human understanding. New Haven, CT: Yale University Press.

 ■ Sapir, E. (1921). Language. New York: Harcourt, Brace, and World.

 ■ Sapir, E. (1964). Culture, language, and personality. Berkeley: University of California Press. (Originally published in 1941.)

 ■ Sapir, E. (1985). The status of linguistics as a science. In D. G. Mandelbaum (Ed.), Selected writings of Edward Sapir in language, culture and personality (pp. 160166). Berkeley: University of California Press. (Originally published in 1929).

 ■ Scardmalia, M., & C. Bereiter (1992). Literate expertise. In K. A. Ericsson & J. Smith (Eds.), Toward a general theory of expertise: Prospects and limits (pp. 172-194). Cambridge: Cambridge University Press.

 ■ Schafer, R. (1954). Psychoanalytic interpretation in Rorschach testing. New York: Grune & Stratten.

 ■ Schank, R. C. (1973). Identification of conceptualizations underlying natural language. In R. C. Schank & K. M. Colby (Eds.), Computer models of thought and language (pp. 187-248). San Francisco: W. H. Freeman.

 ■ Schank, R. C. (1976). The role of memory in language processing. In C. N. Cofer (Ed.), The structure of human memory. (pp. 162-189) San Francisco: W. H. Freeman.

 ■ Schank, R. C. (1986). Explanation patterns: Understanding mechanically and creatively. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Schank, R. C., & R. P. Abelson (1977). Scripts, plans, goals, and understanding. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ SchroЁdinger, E. (1951). Science and humanism. Cambridge: Cambridge University Press.

 ■ Searle, J. R. (1981a). Minds, brains, and programs. In J. Haugeland (Ed.), Mind design: Philosophy, psychology, artificial intelligence (pp. 282-306). Cambridge, MA: MIT Press.

 ■ Searle, J. R. (1981b). Minds, brains and programs. In D. Hofstadter & D. Dennett (Eds.), The mind's I (pp. 353-373). New York: Basic Books.

 ■ Searle, J. R. (1983). Intentionality. New York: Cambridge University Press.

 ■ Serres, M. (1982). The origin of language: Biology, information theory, and thermodynamics. M. Anderson (Trans.). In J. V. Harari & D. F. Bell (Eds.), Hermes: Literature, science, philosophy (pp. 71-83). Baltimore: Johns Hopkins University Press.

 ■ Simon, H. A. (1966). Scientific discovery and the psychology of problem solving. In R. G. Colodny (Ed.), Mind and cosmos: Essays in contemporary science and philosophy (pp. 22-40). Pittsburgh: University of Pittsburgh Press.

 ■ Simon, H. A. (1979). Models of thought. New Haven, CT: Yale University Press.

 ■ Simon, H. A. (1989). The scientist as a problem solver. In D. Klahr & K. Kotovsky (Eds.), Complex information processing: The impact of Herbert Simon. Hillsdale, N.J.: Lawrence Erlbaum Associates.

 ■ Simon, H. A., & C. Kaplan (1989). Foundations of cognitive science. In M. Posner (Ed.), Foundations of cognitive science (pp. 1-47). Cambridge, MA: MIT Press.

 ■ Simonton, D. K. (1988). Creativity, leadership and chance. In R. J. Sternberg (Ed.), The nature of creativity. Cambridge: Cambridge University Press.

 ■ Skinner, B. F. (1974). About behaviorism. New York: Knopf.

 ■ Smith, E. E. (1988). Concepts and thought. In J. Sternberg & E. E. Smith (Eds.), The psychology of human thought (pp. 19-49). Cambridge: Cambridge University Press.

 ■ Smith, E. E. (1990). Thinking: Introduction. In D. N. Osherson & E. E. Smith (Eds.), Thinking. An invitation to cognitive science. (Vol. 3, pp. 1-2). Cambridge, MA: MIT Press.

 ■ Socrates. (1958). Meno. In E. H. Warmington & P. O. Rouse (Eds.), Great dialogues of Plato W.H.D. Rouse (Trans.). New York: New American Library. (Original publication date unknown.)

 ■ Solso, R. L. (1974). Theories of retrieval. In R. L. Solso (Ed.), Theories in cognitive psychology. Potomac, MD: Lawrence Erlbaum Associates.

 ■ Spencer, H. (1896). The principles of psychology. New York: Appleton-CenturyCrofts.

 ■ Steiner, G. (1975). After Babel: Aspects of language and translation. New York: Oxford University Press.

 ■ Sternberg, R. J. (1977). Intelligence, information processing, and analogical reasoning. Hillsdale, NJ: Lawrence Erlbaum Associates.

 ■ Sternberg, R. J. (1994). Intelligence. In R. J. Sternberg, Thinking and problem solving. San Diego: Academic Press.

 ■ Sternberg, R. J., & J. E. Davidson (1985). Cognitive development in gifted and talented. In F. D. Horowitz & M. O'Brien (Eds.), The gifted and talented (pp. 103-135). Washington, DC: American Psychological Association.

 ■ Storr, A. (1993). The dynamics of creation. New York: Ballantine Books. (Originally published in 1972.)

 ■ Stumpf, S. E. (1994). Philosophy: History and problems (5th ed.). New York: McGraw-Hill.

 ■ Sulloway, F. J. (1996). Born to rebel: Birth order, family dynamics, and creative lives. New York: Random House/Vintage Books.

 ■ Thorndike, E. L. (1906). Principles of teaching. New York: A. G. Seiler.

 ■ Thorndike, E. L. (1970). Animal intelligence: Experimental studies. Darien, CT: Hafner Publishing Co. (Originally published in 1911.)

 ■ Titchener, E. B. (1910). A textbook of psychology. New York: Macmillan.

 ■ Titchener, E. B. (1914). A primer of psychology. New York: Macmillan.

 ■ Toulmin, S. (1957). The philosophy of science. London: Hutchinson.

 ■ Tulving, E. (1972). Episodic and semantic memory. In E. Tulving & W. Donaldson (Eds.), Organisation of memory. London: Academic Press.

 ■ Turing, A. (1946). In B. E. Carpenter & R. W. Doran (Eds.), ACE reports of 1946 and other papers. Cambridge, MA: MIT Press.

 ■ Turkle, S. (1984). Computers and the second self: Computers and the human spirit. New York: Simon & Schuster.

 ■ Tyler, S. A. (1978). The said and the unsaid: Mind, meaning, and culture. New York: Academic Press.

 ■ van Heijenoort (Ed.) (1967). From Frege to Goedel. Cambridge: Harvard University Press.

 ■ Varela, F. J. (1984). The creative circle: Sketches on the natural history of circularity. In P. Watzlawick (Ed.), The invented reality (pp. 309-324). New York: W. W. Norton.

 ■ Voltaire (1961). On the Penseґs of M. Pascal. In Philosophical letters (pp. 119-146). E. Dilworth (Trans.). Indianapolis: Bobbs-Merrill.

 ■ Wagman, M. (1991a). Artificial intelligence and human cognition: A theoretical inter comparison of two realms of intellect. Westport, CT: Praeger.

 ■ Wagman, M. (1991b). Cognitive science and concepts of mind: Toward a general theory of human and artificial intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1993). Cognitive psychology and artificial intelligence: Theory and re search in cognitive science. Westport, CT: Praeger.

 ■ Wagman, M. (1995). The sciences of cognition: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1996). Human intellect and cognitive science: Toward a general unified theory of intelligence. Westport, CT: Praeger.

 ■ Wagman, M. (1997a). Cognitive science and the symbolic operations of human and artificial intelligence: Theory and research into the intellective processes. Westport, CT: Praeger.

 ■ Wagman, M. (1997b). The general unified theory of intelligence: Central conceptions and specific application to domains of cognitive science. Westport, CT: Praeger.

 ■ Wagman, M. (1998a). Cognitive science and the mind- body problem: From philosophy to psychology to artificial intelligence to imaging of the brain. Westport, CT: Praeger.

 ■ Wagman, M. (1998b). Language and thought in humans and computers: Theory and research in psychology, artificial intelligence, and neural science. Westport, CT: Praeger.

 ■ Wagman, M. (1998c). The ultimate objectives of artificial intelligence: Theoretical and research foundations, philosophical and psychological implications. Westport, CT: Praeger.

 ■ Wagman, M. (1999). The human mind according to artificial intelligence: Theory, re search, and implications. Westport, CT: Praeger.

 ■ Wagman, M. (2000). Scientific discovery processes in humans and computers: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.

 ■ Wall, R. (1972). Introduction to mathematical linguistics. Englewood Cliffs, NJ: Prentice-Hall.

 ■ Wallas, G. (1926). The Art of Thought. New York: Harcourt, Brace & Co.

 ■ Wason, P. (1977). Self contradictions. In P. Johnson-Laird & P. Wason (Eds.), Thinking: Readings in cognitive science. Cambridge: Cambridge University Press.

 ■ Wason, P. C., & P. N. Johnson-Laird. (1972). Psychology of reasoning: Structure and content. Cambridge, MA: Harvard University Press.

 ■ Watson, J. (1930). Behaviorism. New York: W. W. Norton.

 ■ Watzlawick, P. (1984). Epilogue. In P. Watzlawick (Ed.), The invented reality. New York: W. W. Norton, 1984.

 ■ Weinberg, S. (1977). The first three minutes: A modern view of the origin of the uni verse. New York: Basic Books.

 ■ Weisberg, R. W. (1986). Creativity: Genius and other myths. New York: W. H. Freeman.

 ■ Weizenbaum, J. (1976). Computer power and human reason: From judgment to cal culation. San Francisco: W. H. Freeman.

 ■ Wertheimer, M. (1945). Productive thinking. New York: Harper & Bros.

 ■ Whitehead, A. N. (1925). Science and the modern world. New York: Macmillan.

 ■ Whorf, B. L. (1956). In J. B. Carroll (Ed.), Language, thought and reality: Selected writings of Benjamin Lee Whorf. Cambridge, MA: MIT Press.

 ■ Whyte, L. L. (1962). The unconscious before Freud. New York: Anchor Books.

 ■ Wiener, N. (1954). The human use of human beings. Boston: Houghton Mifflin.

 ■ Wiener, N. (1964). God & Golem, Inc.: A comment on certain points where cybernetics impinges on religion. Cambridge, MA: MIT Press.

 ■ Winograd, T. (1972). Understanding natural language. New York: Academic Press.

 ■ Winston, P. H. (1987). Artificial intelligence: A perspective. In E. L. Grimson & R. S. Patil (Eds.), AI in the 1980s and beyond (pp. 1-12). Cambridge, MA: MIT Press.

 ■ Winston, P. H. (Ed.) (1975). The psychology of computer vision. New York: McGrawHill.

 ■ Wittgenstein, L. (1953). Philosophical investigations. Oxford: Basil Blackwell.

 ■ Wittgenstein, L. (1958). The blue and brown books. New York: Harper Colophon.

 ■ Woods, W. A. (1975). What's in a link: Foundations for semantic networks. In D. G. Bobrow & A. Collins (Eds.), Representations and understanding: Studies in cognitive science (pp. 35-84). New York: Academic Press.

 ■ Woodworth, R. S. (1938). Experimental psychology. New York: Holt; London: Methuen (1939).

 ■ Wundt, W. (1904). Principles of physiological psychology (Vol. 1). E. B. Titchener (Trans.). New York: Macmillan.

 ■ Wundt, W. (1907). Lectures on human and animal psychology. J. E. Creighton & E. B. Titchener (Trans.). New York: Macmillan.

 ■ Young, J. Z. (1978). Programs of the brain. New York: Oxford University Press.

 ■ Ziman, J. (1978). Reliable knowledge: An exploration of the grounds for belief in science. Cambridge: Cambridge University Press.

Artificial Intelligence

   1) Programs and the Complexity of Human Mental Processes

   In my opinion, none of [these programs] does even remote justice to the complexity of human mental processes. Unlike men, "artificially intelligent" programs tend to be single minded, undistractable, and unemotional. (Neisser, 1967, p. 9)

   2) Artificial Intelligence Is an Engineering Discipline

   Future progress in [artificial intelligence] will depend on the development of both practical and theoretical knowledge.... As regards theoretical knowledge, some have sought a unified theory of artificial intelligence. My view is that artificial intelligence is (or soon will be) an engineering discipline since its primary goal is to build things. (Nilsson, 1971, pp. vii-viii)

   3) A Sceptical View of Artificial Intelligence

   Most workers in AI [artificial intelligence] research and in related fields confess to a pronounced feeling of disappointment in what has been achieved in the last 25 years. Workers entered the field around 1950, and even around 1960, with high hopes that are very far from being realized in 1972. In no part of the field have the discoveries made so far produced the major impact that was then promised.... In the meantime, claims and predictions regarding the potential results of AI research had been publicized which went even farther than the expectations of the majority of workers in the field, whose embarrassments have been added to by the lamentable failure of such inflated predictions....

   When able and respected scientists write in letters to the present author that AI, the major goal of computing science, represents "another step in the general process of evolution"; that possibilities in the 1980s include an all-purpose intelligence on a human-scale knowledge base; that awe-inspiring possibilities suggest themselves based on machine intelligence exceeding human intelligence by the year 2000 [one has the right to be skeptical]. (Lighthill, 1972, p. 17)

   4) Just as Astronomy Succeeded Astrology, the Discovery of Intellectual Processes in Machines Should Lead to a Science, Eventually

   Just as astronomy succeeded astrology, following Kepler's discovery of planetary regularities, the discoveries of these many principles in empirical explorations on intellectual processes in machines should lead to a science, eventually. (Minsky & Papert, 1973, p. 11)

   5) Problems in Machine Intelligence Arise Because Things Obvious to Any Person Are Not Represented in the Program

   Many problems arise in experiments on machine intelligence because things obvious to any person are not represented in any program. One can pull with a string, but one cannot push with one.... Simple facts like these caused serious problems when Charniak attempted to extend Bobrow's "Student" program to more realistic applications, and they have not been faced up to until now. (Minsky & Papert, 1973, p. 77)

   6) The Meaning of a Symbolic Description

   What do we mean by [a symbolic] "description"? We do not mean to suggest that our descriptions must be made of strings of ordinary language words (although they might be). The simplest kind of description is a structure in which some features of a situation are represented by single ("primitive") symbols, and relations between those features are represented by other symbols-or by other features of the way the description is put together. (Minsky & Papert, 1973, p. 11)

   7) The Principle of Artificial Intelligence

   [AI is] the use of computer programs and programming techniques to cast light on the principles of intelligence in general and human thought in particular. (Boden, 1977, p. 5)

   8) Artificial Intelligence Recognizes the Need for Knowledge in Its Systems

   The word you look for and hardly ever see in the early AI literature is the word knowledge. They didn't believe you have to know anything, you could always rework it all.... In fact 1967 is the turning point in my mind when there was enough feeling that the old ideas of general principles had to go.... I came up with an argument for what I called the primacy of expertise, and at the time I called the other guys the generalists. (Moses, quoted in McCorduck, 1979, pp. 228-229)

   9) Artificial Intelligence Is Psychology in a Particularly Pure and Abstract Form

   The basic idea of cognitive science is that intelligent beings are semantic engines-in other words, automatic formal systems with interpretations under which they consistently make sense. We can now see why this includes psychology and artificial intelligence on a more or less equal footing: people and intelligent computers (if and when there are any) turn out to be merely different manifestations of the same underlying phenomenon. Moreover, with universal hardware, any semantic engine can in principle be formally imitated by a computer if only the right program can be found. And that will guarantee semantic imitation as well, since (given the appropriate formal behavior) the semantics is "taking care of itself" anyway. Thus we also see why, from this perspective, artificial intelligence can be regarded as psychology in a particularly pure and abstract form. The same fundamental structures are under investigation, but in AI, all the relevant parameters are under direct experimental control (in the programming), without any messy physiology or ethics to get in the way. (Haugeland, 1981b, p. 31)

    10) There Are Many Types of Reasoning

   There are many different kinds of reasoning one might imagine:

    Formal reasoning involves the syntactic manipulation of data structures to deduce new ones following prespecified rules of inference. Mathematical logic is the archetypical formal representation. Procedural reasoning uses simulation to answer questions and solve problems. When we use a program to answer What is the sum of 3 and 4? it uses, or "runs," a procedural model of arithmetic. Reasoning by analogy seems to be a very natural mode of thought for humans but, so far, difficult to accomplish in AI programs. The idea is that when you ask the question Can robins fly? the system might reason that "robins are like sparrows, and I know that sparrows can fly, so robins probably can fly."

    Generalization and abstraction are also natural reasoning process for humans that are difficult to pin down well enough to implement in a program. If one knows that Robins have wings, that Sparrows have wings, and that Blue jays have wings, eventually one will believe that All birds have wings. This capability may be at the core of most human learning, but it has not yet become a useful technique in AI.... Meta- level reasoning is demonstrated by the way one answers the question What is Paul Newman's telephone number? You might reason that "if I knew Paul Newman's number, I would know that I knew it, because it is a notable fact." This involves using "knowledge about what you know," in particular, about the extent of your knowledge and about the importance of certain facts. Recent research in psychology and AI indicates that meta-level reasoning may play a central role in human cognitive processing. (Barr & Feigenbaum, 1981, pp. 146-147)

    11) Programs Are Beginning to Do Things That Critics Have Asserted to Be Impossible

   Suffice it to say that programs already exist that can do things-or, at the very least, appear to be beginning to do things-which ill-informed critics have asserted a priori to be impossible. Examples include: perceiving in a holistic as opposed to an atomistic way; using language creatively; translating sensibly from one language to another by way of a language-neutral semantic representation; planning acts in a broad and sketchy fashion, the details being decided only in execution; distinguishing between different species of emotional reaction according to the psychological context of the subject. (Boden, 1981, p. 33)

    12) The Synthesis of Man and Machine

   Can the synthesis of Man and Machine ever be stable, or will the purely organic component become such a hindrance that it has to be discarded? If this eventually happens-and I have... good reasons for thinking that it must-we have nothing to regret and certainly nothing to fear. (Clarke, 1984, p. 243)

    13) The Thesis of Good Old-Fashioned Artificial Intelligence (GOFAI)

   The thesis of GOFAI... is not that the processes underlying intelligence can be described symbolically... but that they are symbolic. (Haugeland, 1985, p. 113)

    14) Artificial Intelligence Provides a Useful Approach to Psychological and Psychiatric Theory Formation

   It is all very well formulating psychological and psychiatric theories verbally but, when using natural language (even technical jargon), it is difficult to recognise when a theory is complete; oversights are all too easily made, gaps too readily left. This is a point which is generally recognised to be true and it is for precisely this reason that the behavioural sciences attempt to follow the natural sciences in using "classical" mathematics as a more rigorous descriptive language. However, it is an unfortunate fact that, with a few notable exceptions, there has been a marked lack of success in this application. It is my belief that a different approach-a different mathematics-is needed, and that AI provides just this approach. (Hand, quoted in Hand, 1985, pp. 6-7)

    15) Four Kinds of Artificial Intelligence

   We might distinguish among four kinds of AI.

   ♦ Nonpsychological AI

   Research of this kind involves building and programming computers to perform tasks which, to paraphrase Marvin Minsky, would require intelligence if they were done by us. Researchers in nonpsychological AI make no claims whatsoever about the psychological realism of their programs or the devices they build, that is, about whether or not computers perform tasks as humans do.

   ♦ Weak Psychological AI

   Research here is guided by the view that the computer is a useful tool in the study of mind. In particular, we can write computer programs or build devices that simulate alleged psychological processes in humans and then test our predictions about how the alleged processes work. We can weave these programs and devices together with other programs and devices that simulate different alleged mental processes and thereby test the degree to which the AI system as a whole simulates human mentality. According to weak psychological AI, working with computer models is a way of refining and testing hypotheses about processes that are allegedly realized in human minds.

   ♦ Strong Psychological AI

... According to this view, our minds are computers and therefore can be duplicated by other computers. Sherry Turkle writes that the "real ambition is of mythic proportions, making a general purpose intelligence, a mind." (Turkle, 1984, p. 240) The authors of a major text announce that "the ultimate goal of AI research is to build a person or, more humbly, an animal." (Charniak & McDermott, 1985, p. 7)

   ♦ Suprapsychological AI

   Research in this field, like strong psychological AI, takes seriously the functionalist view that mentality can be realized in many different types of physical devices. Suprapsychological AI, however, accuses strong psychological AI of being chauvinisticof being only interested in human intelligence! Suprapsychological AI claims to be interested in all the conceivable ways intelligence can be realized. (Flanagan, 1991, pp. 241-242)

    16) Determination of Relevance of Rules in Particular Contexts

   Even if the [rules] were stored in a context-free form the computer still couldn't use them. To do that the computer requires rules enabling it to draw on just those [ rules] which are relevant in each particular context. Determination of relevance will have to be based on further facts and rules, but the question will again arise as to which facts and rules are relevant for making each particular determination. One could always invoke further facts and rules to answer this question, but of course these must be only the relevant ones. And so it goes. It seems that AI workers will never be able to get started here unless they can settle the problem of relevance beforehand by cataloguing types of context and listing just those facts which are relevant in each. (Dreyfus & Dreyfus, 1986, p. 80)

    17) Form and Content Are Not Fundamentally Different

   Perhaps the single most important idea to artificial intelligence is that there is no fundamental difference between form and content, that meaning can be captured in a set of symbols such as a semantic net. (G. Johnson, 1986, p. 250)

    18) The Assumption That the Mind Is a Formal System

   Artificial intelligence is based on the assumption that the mind can be described as some kind of formal system manipulating symbols that stand for things in the world. Thus it doesn't matter what the brain is made of, or what it uses for tokens in the great game of thinking. Using an equivalent set of tokens and rules, we can do thinking with a digital computer, just as we can play chess using cups, salt and pepper shakers, knives, forks, and spoons. Using the right software, one system (the mind) can be mapped into the other (the computer). (G. Johnson, 1986, p. 250)

    19) A Statement of the Primary and Secondary Purposes of Artificial Intelligence

   The primary goal of Artificial Intelligence is to make machines smarter.

   The secondary goals of Artificial Intelligence are to understand what intelligence is (the Nobel laureate purpose) and to make machines more useful (the entrepreneurial purpose). (Winston, 1987, p. 1)

    20) Mathematical Logic Provides the Basis for Theory in AI

   The theoretical ideas of older branches of engineering are captured in the language of mathematics. We contend that mathematical logic provides the basis for theory in AI. Although many computer scientists already count logic as fundamental to computer science in general, we put forward an even stronger form of the logic-is-important argument....

   AI deals mainly with the problem of representing and using declarative (as opposed to procedural) knowledge. Declarative knowledge is the kind that is expressed as sentences, and AI needs a language in which to state these sentences. Because the languages in which this knowledge usually is originally captured (natural languages such as English) are not suitable for computer representations, some other language with the appropriate properties must be used. It turns out, we think, that the appropriate properties include at least those that have been uppermost in the minds of logicians in their development of logical languages such as the predicate calculus. Thus, we think that any language for expressing knowledge in AI systems must be at least as expressive as the first-order predicate calculus. (Genesereth & Nilsson, 1987, p. viii)

    21) Perceptual Structures Can Be Represented as Lists of Elementary Propositions

   In artificial intelligence studies, perceptual structures are represented as assemblages of description lists, the elementary components of which are propositions asserting that certain relations hold among elements. (Chase & Simon, 1988, p. 490)

    22) Definitions of Artificial Intelligence

   Artificial intelligence (AI) is sometimes defined as the study of how to build and/or program computers to enable them to do the sorts of things that minds can do. Some of these things are commonly regarded as requiring intelligence: offering a medical diagnosis and/or prescription, giving legal or scientific advice, proving theorems in logic or mathematics. Others are not, because they can be done by all normal adults irrespective of educational background (and sometimes by non-human animals too), and typically involve no conscious control: seeing things in sunlight and shadows, finding a path through cluttered terrain, fitting pegs into holes, speaking one's own native tongue, and using one's common sense. Because it covers AI research dealing with both these classes of mental capacity, this definition is preferable to one describing AI as making computers do "things that would require intelligence if done by people." However, it presupposes that computers could do what minds can do, that they might really diagnose, advise, infer, and understand. One could avoid this problematic assumption (and also side-step questions about whether computers do things in the same way as we do) by defining AI instead as "the development of computers whose observable performance has features which in humans we would attribute to mental processes." This bland characterization would be acceptable to some AI workers, especially amongst those focusing on the production of technological tools for commercial purposes. But many others would favour a more controversial definition, seeing AI as the science of intelligence in general-or, more accurately, as the intellectual core of cognitive science. As such, its goal is to provide a systematic theory that can explain (and perhaps enable us to replicate) both the general categories of intentionality and the diverse psychological capacities grounded in them. (Boden, 1990b, pp. 1-2)

    23) The Computer Can Not Be a Model of the Mind

   Because the ability to store data somewhat corresponds to what we call memory in human beings, and because the ability to follow logical procedures somewhat corresponds to what we call reasoning in human beings, many members of the cult have concluded that what computers do somewhat corresponds to what we call thinking. It is no great difficulty to persuade the general public of that conclusion since computers process data very fast in small spaces well below the level of visibility; they do not look like other machines when they are at work. They seem to be running along as smoothly and silently as the brain does when it remembers and reasons and thinks. On the other hand, those who design and build computers know exactly how the machines are working down in the hidden depths of their semiconductors. Computers can be taken apart, scrutinized, and put back together. Their activities can be tracked, analyzed, measured, and thus clearly understood-which is far from possible with the brain. This gives rise to the tempting assumption on the part of the builders and designers that computers can tell us something about brains, indeed, that the computer can serve as a model of the mind, which then comes to be seen as some manner of information processing machine, and possibly not as good at the job as the machine. (Roszak, 1994, pp. xiv-xv)

    24) Computers Will Not Always Be Inferior to Human Brains

   The inner workings of the human mind are far more intricate than the most complicated systems of modern technology. Researchers in the field of artificial intelligence have been attempting to develop programs that will enable computers to display intelligent behavior. Although this field has been an active one for more than thirty-five years and has had many notable successes, AI researchers still do not know how to create a program that matches human intelligence. No existing program can recall facts, solve problems, reason, learn, and process language with human facility. This lack of success has occurred not because computers are inferior to human brains but rather because we do not yet know in sufficient detail how intelligence is organized in the brain. (Anderson, 1995, p. 2)

Winding

WINDING

The operation of transferring yarn from one form of package to another, such as winding from hanks to bobbins, from bobbins to cones, from cops to bobbins, etc. The process that follows spinning determines whether winding is necessary or not. Cops and ring tubes or bobbins can be used in that form as weft in the shuttle, but they are not suitable for making into warps, nor as supply to knitting or braiding machines. Yarn in the other forms of spun packages requires to be pirned for use as weft. Although yarn winding is not a fundamental process like spinning and weaving, it occupies a very important place in the economics of yarn processing, and probably embraces a wider range of different machines than any other phase of textile processing. Even a bare catalogue of the different kinds of winding machines would far too lengthy for inclusion here. Broadly, winding machines are adapted for: - 1. Winding yarn for use as weft in loom shuttles, including winding on to wood pirns and paper tubes; solid cops for use in shuttles without tongues; quills for use in ribbon and smallware looms; layer locking at the nose of the pirn to prevent sloughing of rayon weft; bunch building at the base of pirns for use in automatic looms; weft rewound from spinner's cops into larger packages to give maximum length at one filling of the shuttle. The yarn supply can be from hanks, cops, spinner's bobbins, cones, cheeses, warps, etc. 2. Winding yarns for making warps from spinner's cops or bobbins, hanks that have been sized, bleached or dyed, cones, cheeses, and other forms of supply. 3. Winding yarns into suitable form for sizing, bleaching, dyeing, or for receiving other wet treatments, including hanks, warps, cheeses, cops, etc. 4. Winding yarns for knitting, i.e., on to splicer bobbins, cones, pineapple cones, bottle bobbins, etc., and on to bobbins for use in braiding machines. 5. Special process winding such as the precision winding of several threads side by side in tape form for covering wire, etc. 6. Winding yarns into packages for retail selling such as winding mending wools on cards; sewing thread on wood spools or small flangeless cheeses; crochet embroidery and other threads into balls; packing string info balls and cheeses; harvesting twine into large balls and cones, etc.

Computers

   1) A Comparison of the Digital Computer and the Brain

   The brain has been compared to a digital computer because the neuron, like a switch or valve, either does or does not complete a circuit. But at that point the similarity ends. The switch in the digital computer is constant in its effect, and its effect is large in proportion to the total output of the machine. The effect produced by the neuron varies with its recovery from [the] refractory phase and with its metabolic state. The number of neurons involved in any action runs into millions so that the influence of any one is negligible.... Any cell in the system can be dispensed with.... The brain is an analogical machine, not digital. Analysis of the integrative activities will probably have to be in statistical terms. (Lashley, quoted in Beach, Hebb, Morgan & Nissen, 1960, p. 539)

   2) Computers Do Not Crunch Numbers, They Manipulate Symbols

   It is essential to realize that a computer is not a mere "number cruncher," or supercalculating arithmetic machine, although this is how computers are commonly regarded by people having no familiarity with artificial intelligence. Computers do not crunch numbers; they manipulate symbols.... Digital computers originally developed with mathematical problems in mind, are in fact general purpose symbol manipulating machines....

   The terms "computer" and "computation" are themselves unfortunate, in view of their misleading arithmetical connotations. The definition of artificial intelligence previously cited-"the study of intelligence as computation"-does not imply that intelligence is really counting. Intelligence may be defined as the ability creatively to manipulate symbols, or process information, given the requirements of the task in hand. (Boden, 1981, pp. 15, 16-17)

   3) Getting Computers to Explain Things to Themselves

   The task is to get computers to explain things to themselves, to ask questions about their experiences so as to cause those explanations to be forthcoming, and to be creative in coming up with explanations that have not been previously available. (Schank, 1986, p. 19)

   4) Some Limits of Artificial Intelligence

   In What Computers Can't Do, written in 1969 (2nd edition, 1972), the main objection to AI was the impossibility of using rules to select only those facts about the real world that were relevant in a given situation. The "Introduction" to the paperback edition of the book, published by Harper & Row in 1979, pointed out further that no one had the slightest idea how to represent the common sense understanding possessed even by a four-year-old. (Dreyfus & Dreyfus, 1986, p. 102)

   5) The Computer as a Humanizing Influence

   A popular myth says that the invention of the computer diminishes our sense of ourselves, because it shows that rational thought is not special to human beings, but can be carried on by a mere machine. It is a short stop from there to the conclusion that intelligence is mechanical, which many people find to be an affront to all that is most precious and singular about their humanness.

   In fact, the computer, early in its career, was not an instrument of the philistines, but a humanizing influence. It helped to revive an idea that had fallen into disrepute: the idea that the mind is real, that it has an inner structure and a complex organization, and can be understood in scientific terms. For some three decades, until the 1940s, American psychology had lain in the grip of the ice age of behaviorism, which was antimental through and through. During these years, extreme behaviorists banished the study of thought from their agenda. Mind and consciousness, thinking, imagining, planning, solving problems, were dismissed as worthless for anything except speculation. Only the external aspects of behavior, the surface manifestations, were grist for the scientist's mill, because only they could be observed and measured....

   It is one of the surprising gifts of the computer in the history of ideas that it played a part in giving back to psychology what it had lost, which was nothing less than the mind itself. In particular, there was a revival of interest in how the mind represents the world internally to itself, by means of knowledge structures such as ideas, symbols, images, and inner narratives, all of which had been consigned to the realm of mysticism. (Campbell, 1989, p. 10)

   6) The Intentionality of Computers Is Essentially Borrowed, Hence Derivative

   [Our artifacts] only have meaning because we give it to them; their intentionality, like that of smoke signals and writing, is essentially borrowed, hence derivative. To put it bluntly: computers themselves don't mean anything by their tokens (any more than books do)-they only mean what we say they do. Genuine understanding, on the other hand, is intentional "in its own right" and not derivatively from something else. (Haugeland, 1981a, pp. 32-33)

   7) The Possibility of Computer Thought

   he debate over the possibility of computer thought will never be won or lost; it will simply cease to be of interest, like the previous debate over man as a clockwork mechanism. (Bolter, 1984, p. 190)

   8) We Are Getting Better at Building Even Better Computers, an Ever- Escalating Upward Spiral

   t takes us a long time to emotionally digest a new idea. The computer is too big a step, and too recently made, for us to quickly recover our balance and gauge its potential. It's an enormous accelerator, perhaps the greatest one since the plow, twelve thousand years ago. As an intelligence amplifier, it speeds up everything-including itself-and it continually improves because its heart is information or, more plainly, ideas. We can no more calculate its consequences than Babbage could have foreseen antibiotics, the Pill, or space stations.

   Further, the effects of those ideas are rapidly compounding, because a computer design is itself just a set of ideas. As we get better at manipulating ideas by building ever better computers, we get better at building even better computers-it's an ever-escalating upward spiral. The early nineteenth century, when the computer's story began, is already so far back that it may as well be the Stone Age. (Rawlins, 1997, p. 19)

   9) Weak Artificial Intelligence and Strong Artificial Intelligence

   According to weak AI, the principle value of the computer in the study of the mind is that it gives us a very powerful tool. For example, it enables us to formulate and test hypotheses in a more rigorous and precise fashion than before. But according to strong AI the computer is not merely a tool in the study of the mind; rather the appropriately programmed computer really is a mind in the sense that computers given the right programs can be literally said to understand and have other cognitive states. And according to strong AI, because the programmed computer has cognitive states, the programs are not mere tools that enable us to test psychological explanations; rather, the programs are themselves the explanations. (Searle, 1981b, p. 353)

    10) Why People Are Smarter Than Computers

   What makes people smarter than machines? They certainly are not quicker or more precise. Yet people are far better at perceiving objects in natural scenes and noting their relations, at understanding language and retrieving contextually appropriate information from memory, at making plans and carrying out contextually appropriate actions, and at a wide range of other natural cognitive tasks. People are also far better at learning to do these things more accurately and fluently through processing experience.

   What is the basis for these differences? One answer, perhaps the classic one we might expect from artificial intelligence, is "software." If we only had the right computer program, the argument goes, we might be able to capture the fluidity and adaptability of human information processing. Certainly this answer is partially correct. There have been great breakthroughs in our understanding of cognition as a result of the development of expressive high-level computer languages and powerful algorithms. However, we do not think that software is the whole story.

   In our view, people are smarter than today's computers because the brain employs a basic computational architecture that is more suited to deal with a central aspect of the natural information processing tasks that people are so good at.... hese tasks generally require the simultaneous consideration of many pieces of information or constraints. Each constraint may be imperfectly specified and ambiguous, yet each can play a potentially decisive role in determining the outcome of processing. (McClelland, Rumelhart & Hinton, 1986, pp. 3-4)

machine

1) машина; станок; двигатель; механизм

2) организационный аппарат

3) машинный

4) механически обрабатывать; обрабатывать на станке

•

machined all over — обработанный по всей поверхности

machine for hydraulic monitor operations — гидромонитор

machine for laying track ballast, panels and sleepers — машина для прокладки щебня для балластировки пути, путевых звеньев и шпал

machine for preparation — обогатительная установка

machine for road surface rehabilitation — машина для санирования поверхности дорожного полотна

machine for shaping and treatment — машина для обработки и придания формы

machine for soil stabilizing — машина для стабилизации грунта

to demonstrate a machine — демонстрировать машину

to maintain a machine — обслуживать машину

to operate a machine — управлять машиной, работать на станке

to produce a machine — изготовить машину

to put a machine into operation — пускать машину в эксплуатацию

to service a machine — обслуживать машину

to set up a machine — налаживать станок

to use a machine — использовать машину

- angle-bending machine

- asphalt-placing machine - asphalt-spreading machine - auger brick machine - automatic arc welding machine - automatic setting machine - band-sawing machine - bending machine - bind machine - binding machine - bitumen melting, conveying and application machines for roofs - blade machine - blending machine - block machine - block-cutting machine - block-making machine - blue-printing machine - bolting machine - bolt-threading machine - borehole drilling machine - boring machine - boring and mortising machine - bottom-facing machine - box-hole boring machine - brick-moulding machine - Brinell's machine - brush machine - bucket-trenching machine - butt-welding machine - cable-dragging machine - cable-laying machine - calculating machine - cambering machine - capacity of a machine - caterpillar excavating machine - cement injection machine - cement testing machine - centrifugal machine - chain-and-tooth machine - clay-cutting machine - clay-working machine - cleaving machine - cold saw-cutting-off machine - component assembly machine - compression testing machine - concrete finishing machine - concrete smoothing machine - concrete spraying machine - concrete trowel machine - concrete vibratory machine - concreting machine - cooling machine - corrosion-fatigue testing machine - crane boom machine - crane-boring machine - crushing machine - cutting machine - dado-head machine - deairing machine - dependability of a machine operations - design of a machine - digging machine - direct stress machine - ditching machine - drawing machine - dredging machine - drill-ripping machine - dynamic machine - edge-grinding and polishing machine - excavating machine - excelsior cutting machine - extruding machine - fatigue testing machine - felling and milling machine - finishing machine - frozen-earth-excavating machine - gang-sawing machine - gas-welding machine - glass-washing machine - grooving machine - grouting machine - Guillery impact machine - gutters machine - hack-sawing machine - hand bending machine - handle attaching, screen printing, decal application machine - hardness testing machine - hoisting machine - hydraulic machine - hydraulic casing machine - idle time of a machine - impact machine - insulating tape winding machine - jarring machine - joint-cutting machine - jolt-moulding machine - jolt-ramming machine - knapping machine - kneading machine - knock-boring machine - lacerating machine - lazer-guided machine - lime hydrating machine - lining machine - loaded machine - magnetic pulsed arc welding machine - manner-type slaking machine - match-boarding machine - mixing machine - mortar-mixing machine - mortising slot machine - nail-driving machine - nailing machine - one head automatic arc welding machine - operational machine - packing machine - pavement-marking machine - paving machine - pavingstone-laying machine - percussion riveting machine - pile-drawing machine - pipe-bending machine - pipe-cleaning machine - pipe-cutting machine - pipe-laying machine - pipe-threading machine - pipe-welding machine - planing machine - plaster-floating and trowelling machine - plastering machine - plate-punching machine - polishing machine - power polymer concrete spraying machine for the road - pressure casting machine - profiling machine - ram impact machine - refrigerating machine - reinforcement welding machine - reinforcement winding machine - reversed torsion machine - road marking machine - rock-boring machine - roof bolting machine - rotating beam-type machine - rotating cantilever beam-type machine - scooping machine - scraper machine - screening machine - separating machine - service life of machine - sieving machine - skid proofing machine - slotting machine - soil-compacting machine - sorting machine - sounding machine - spinning machine - splitting machine - spot welding machine - spraying machine for road binders - standard machine capacity - stationary processing machine for sleepers and rails - stone-laying machine - strikeoff machine - stripper machine - synchronous machine - tensile-testing machine - testing machine - track lifting and slewing machine - trench-cutting machine - trenching machine - tunnelling machine - universal machine for track-laying - universal testing machine - unpiling machine - vibration machine - vibratory impact machine - welding machine - wire-winding machine

* * *

машина; станок; механизм; устройство; установка

- absorption refrigerating machine
- absorption machine
- adsorption refrigerating machine
- adsorption machine
- air placing machine
- air refrigerating machine
- all-purpose machine
- ammonia refrigerating machine
- anchor machine
- automatic tamping and leveling machine
- axial piston machine
- backhoe tunneling machine
- bag filling machine
- bag packing machine
- ballast cleaning machine
- ballast dressing machine
- ballast screening machine
- ballast tamping machine
- bar bending machine
- bar-cropping machine
- basic machine
- bead-forming machine
- beam-molding machine
- bending machine
- bending testing machine
- bitumen spraying machine
- blasting machine
- block-making machine
- building material machines
- bulk-handling machines
- carrying and lifting machines
- casting machine
- centrifugal refrigerating machine
- Charpy impact machine
- cleaning priming and taping machine
- cold air machine
- combination floating-troweling machine
- compaction machine
- compression refrigerating machine
- compression testing machine
- concrete core drilling machine
- concrete finishing machine
- concrete molding machine
- concrete placing machine
- concrete vibrating machine
- construction machines
- creasing machine
- cribbing machine
- cutting-off machine
- ditching machine
- drafting machine
- drag scraper machine
- drilling machine
- drum digger tunneling machine
- duct forming machine
- excavating machines
- finishing machine
- flanging machine
- folding machine
- forming machine
- frost gritting machine
- gauging machine
- grinding machine
- grouting machine
- guniting machine
- hoisting machine
- Izod impact machine
- Izod machine
- joint grouting machine
- joint sealing machine
- laser-guided machine
- laydown machine
- laying and finishing machine
- lithium bromide refrigerating machine
- lockforming machine
- material handling machine
- materials testing machine
- material testing machine
- molding machine
- mortise machine
- padding machine
- pavement diamond core drilling machine
- pavement core drilling machine
- pendulum impact testing machine
- pendulum impact machine
- percussion riveting machine
- piling machine
- pipe-bending machine
- pipe-cutting machine
- pipelining machine
- pipemaking machine
- pipe threading machine
- plasma cutting machine
- pneumatic riveting machine
- pneumatic wood-boring machine
- polishing machine
- portable planing machine
- precast concrete machine
- rail-welding machine
- refrigerating machine
- road grooving machine
- rollforming machine
- rounding machine
- screeding machine
- seam closing machine
- self-propelled machine
- single rail-mounted machine
- slab-making machine
- slipforming machine
- soft ground tunneling machine
- spiking machine
- steam jet refrigerating machine
- stirrup bending machine
- strikeoff machine
- stump pulling machine
- swaging machine
- tamping machine
- tensile machine
- tensile-and-compression machine
- testing machine
- thread-cutting machine
- tile ditching machine
- towed machine
- tracked machine
- trenching machine
- triaxial compression machine
- troweling machine
- tunnel boring machine
- vacuum refrigeration machine
- vibrating machine
- vibrating and finishing machine
- vibroflot machine
- walk-behind machine
- wire winding machine
- wrapping machine

machinery

1. организационный аппарат
2. оборудование
3. механизм
4. машины и оборудование
5. машины
6. машинное оборудование

 

машинное оборудование
термин " машинное оборудование" означает:
- сборочную единицу, состоящую из соединенных частей или компонентов, по крайней мере, одна из которых находится в движении, имеет соответствующие приводы, схему управления, цепь питания, и т.д., соединенные вместе с целью специального применения, в частности, для производства, обработки, перемещения или упаковки материала;
- группу машин, которые для достижения той же цели организованы и управляется таким образом, что они функционируют как единое целое;
- взаимозаменяемое оборудование, модифицирующее функции машины, которое отдельно поставляется на рынок и предназначено для установки на машине или на серии различных машин или на приводном устройстве самим оператором, при условии, что данное оборудование не является запасной частью или инструментом.
[Директива 98/37/ЕЭС по машинному оборудованию]

EN

machinery
‘machinery’ means:
— an assembly of linked parts or components, at least one of which moves, with the appropriate
actuators, control and power circuits, etc., joined together for a specific application, in particular
for the processing, treatment, moving or packaging of a material,
— an assembly of machines which, in order to achieve the same end, are arranged and controlled so that they function as an integral whole,
— interchangeable equipment modifying the function of a machine, which is placed on the market for the purpose of being assembled with a machine or a series of different machines or with a tractor by the operator himself in so far as this equipment is not a spare part or a tool
[DIRECTIVE 98/37/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL]

Параллельные тексты EN-RU

3. The following are excluded from the scope of this Directive:

3. Из области применения данной Директивы исключаются:

— machinery whose only power source is directly applied manual effort, unless it is a machine used for lifting or lowering loads,

- машинное оборудование, для которых источником энергии является исключительно непосредственное применение ручной силы, за исключением механизмов для подъема и опускания грузов;

— machinery for medical use used in direct contact with patients,

- медицинские приборы;

— special equipment for use in fairgrounds and/or amusement parks,

- специальное оборудование для использования в аттракционах и/или парках для развлечений;

— steam boilers, tanks and pressure vessels,

- паровые котлы, резервуары и сосуды под давлением;

— machinery specially designed or put into service for nuclear purposes which, in the event of failure, may result in an emission of radioactivity,

- машинное оборудование, специально сконструированное или используемое в атомной отрасли, которые в случае аварии могут привести к выделению радиоактивных веществ;

— radioactive sources forming part of a machine,

- радиоактивные источники, составляющие часть машин;

— firearms,

- стрелковое оружие;

— storage tanks and pipelines for petrol, diesel fuel, inflammable liquids and dangerous substances,

- емкости для хранения или трубопроводы для бензина, дизельного топлива, огнеопасных жидкостей и опасных веществ;

— means of transport, i.e. vehicles and their trailers intended solely for transporting passengers by air or on road, rail or water networks, as well as means of transport in so far as such means are designed for transporting goods by air, on public road or rail networks or on water. Vehicles used in the mineral extraction industry shall not be excluded,

- транспортные средства, т.е. средства перевозки и их прицепы, предназначенные исключительно для перевозки пассажиров по воздуху, автодороге, железной дороге, или водными путями, а также транспортные средства, сконструированные для транспортировки грузов по воздуху, по общедоступным дорогам, железным дорогам или водным путям. Средства транспортировки, используемые в горнодобывающей промышленности, не исключаются из области применения настоящей Директивы;

— seagoing vessels and mobile offshore units together with equipment on board such vessels or units,

- морские суда и мобильные береговые агрегаты вместе с оборудованием на борту, такие как танки или установки;

— cableways, including funicular railways, for the public or private transportation of persons,

- канатные дороги, включая фуникулерные железные дороги для общественного или частного пользования, предназначенные для транспортировки людей;

— agricultural and forestry tractors, as defined in Article 1(1) of Directive 74/150/EEC (1),

(1) Council Directive 74/150/EEC of 4 March 1974 on the approximation of the laws of the Member States relating to the type-approval of wheeled agricultural or forestry tractors (OJ L 84, 28.3.1974, p. 10). Directive as last amended by Decision 95/1/EC, Euratom, ECSC (OJ L 1.1.1995, p. 1).

-сельскохозяйственные и лесные тракторы, подпадающие под определение статьи 1 (1) Директивы Совета 74/150/ЕЭС(1);

(1) Директива Совета 74/150/ЕЭС от 4 марта 1974 г. по сближению законодательных актов Государств-членов, относящихся к одобрению типов колесных сельскохозяйственных или лесных тракторов (Официальный журнал Европейских сообществ № L 84, 28.3.1974 г., стр.10). Директива, измененная последний раз Решением 95/1/ЕЭС, Евроатом, ECSC (Официальный журнал Европейских сообществ № L 1/1/1995 г., стр 1)

— machines specially designed and constructed for military or police purposes,

- машины, специально сконструированные и созданные для военных и полицейских целей;

— lifts which permanently serve specific levels of buildings and constructions, having a car moving between guides which are rigid and inclined at an angle of more than 15 degrees to the horizontal and designed for the transport of:
(i) persons;
(ii) persons and goods;
(iii) goods alone if the car is accessible, that is to say, a person may enter it without difficulty, and fitted with controls situated inside the car or within reach of a person inside,

- лифты и подъемные устройства, постоянно обслуживающие определенные уровни зданий и конструкций, имеющие транспортную тележку, движущуюся между жесткими направляющими, которые имеют угол наклона более 15 градусов к горизонтальной поверхности и сконструированы для транспортировки:
(i) людей;
(ii) людей и имущества;
(iii) только имущества, в том случае, если кабина лифта открыта, т.е. человек может легко войти в такое транспортное средство и манипулировать средствами управления, находящимися внутри кабины или в пределах досягаемости для человека;

— means of transport of persons using rack and pinion rail mounted vehicles,

- транспортные средства для перевозки людей, с использованием зубчатых или реечных рельс, по которым перемещается транспортные средства;

— mine winding gear,

- шахтные канатные подъемные устройства;

— theatre elevators,

- театральные подъемники;

— construction site hoists intended for lifting persons or persons and goods.

- строительные подъемники, предназначенные для подъема людей или людей и грузов.

4. Where, for machinery or safety components, the risks referred to in this Directive are wholly or partly covered by specific Community Directives, this Directive shall not apply, or shall cease to apply, in the case of such machinery or safety components and of such risks on the implementation of these specific Directives.

4. Когда для машинного оборудования и компонентов безопасности риски, определенные в настоящей Директиве, полностью или частично покрываются специальными Директивами Сообщества, настоящая Директива не применяется или прекращает свое действие, такое машинное оборудование и компоненты безопасности и такие риски подпадают под действие этих специальных Директив.

5. Where, for machinery, the risks are mainly of electrical origin, such machinery shall be covered exclusively by Directive 73/23/EEC (2).

(2) Council Directive 73/23/EEC of 19 February 1973 on the harmonisation of the laws of Member States relating to electrical equipment designed for use within certain voltage limits (OJ L 77, 26.3.1973, p. 29). Directive as last amended by Directive 93/68/EEC (OJ L 220, 30.8.1993, p. 1).

5. Когда риски применения машинного оборудования связаны с электрическими источниками, то такое оборудование охватываются исключительно Директивой 73/23/ЕЭС(2).

(2) Директива Совета 73/23/ЕЭС/ от 19 февраля 1973 года о гармонизации законов Государств-Участников в отношении электрооборудования, предназначенного для использования в условиях определенных пределов напряжения (Официальный журнал Европейских сообществ № L 77, 26.03.1973, стр. 29). Директива с последней поправкой Директивой 93/68/ЕЭС (Официальный журнал Европейских сообществ № L 220, 30.08.1993, стр.1).

Article 2
1. Member States shall take all appropriate measures to ensure that machinery or safety components covered by this Directive may be placed on the market and put into service only if they do not endanger the health or safety of persons and, where appropriate, domestic animals or property, when properly installed and maintained and used for their intended purpose.

Статья 2
1. Государства - члены должны предпринимать все необходимые меры для обеспечения того, чтобы машинное оборудование или компоненты безопасности, попадающие под действие настоящей Директивы, поставлялись на рынок и вводились в эксплуатацию, только если они не составляют угрозу для здоровья и безопасности людей и домашних животных, или имуществу при условии надлежащей установки и обслуживания, а также использования по прямому назначению.

2. This Directive shall not affect Member States’ entitlement to lay down, in due observance of the Treaty, such requirements as they may deem necessary to ensure that persons and in particular workers are protected when using the machinery or safety components in question, provided that this does not mean that the machinery or safety components are modified in a way not specified in the Directive.

2. Настоящая Директива не ограничивает права Государств - членов устанавливать при должном соблюдении Договора такие требования, которые они посчитают необходимыми для обеспечения защиты людей, особенно работников, при использовании машинного оборудования или компонентов безопасности, при условии, что модификация такого машинного оборудования и компонентов безопасности была произведена в соответствии с положениями настоящей Директивы.

3. At trade fairs, exhibitions, demonstrations, etc., Member States shall not prevent the showing of machinery or safety components which do not conform to the provisions of this Directive, provided that a visible sign clearly indicates that such machinery or safety components do not conform and that they are not for sale until they have been brought into conformity by the manufacturer or his authorised representative established in the Community. During demonstrations, adequate safety measures shall be taken to ensure the protection of persons.

3. На торговых ярмарках, выставках, демонстрациях и т.п. Государства - члены не должны препятствовать демонстрации машинного оборудования или компонентов безопасности, которые не соответствуют положениям настоящей Директивы, при условии, что видимый знак четко указывает, что такое машинное оборудование или компоненты безопасности не соответствуют данной Директиве, и что они не предназначаются для продажи до тех пор, пока изготовитель или его уполномоченный представитель в Сообществе не приведет их в полное соответствие с Директивой. Во время демонстраций должны приниматься адекватные меры для обеспечения безопасности граждан.

Article 3
Machinery and safety components covered by this Directive shall satisfy the essential health and safety requirements set out in Annex I.

Статья 3
Машинное оборудование, а также компоненты безопасности, относящиеся к области действия настоящей Директивы, должны полностью удовлетворять основным требованиям по обеспечению здоровья и безопасности, изложенным в Приложении 1.

Article 4
1. Member States shall not prohibit, restrict or impede the placing on the market and putting into service in their territory of machinery and safety components which comply with this Directive.

Статья 4
1. Государства - члены не должны запрещать, ограничивать или препятствовать поставке на рынок машинного оборудования, а также компонентов безопасности, которые соответствуют
требованиям настоящей Директивы.

2. Member States shall not prohibit, restrict or impede the placing on the market of machinery where the manufacturer or his authorised representative established in the Community declares in accordance with point B of Annex II that it is intended to be incorporated into machinery or assembled with other machinery to constitute machinery covered by this Directive, except where it can function independently.

‘Interchangeable equipment’, as referred to in the third indent of Article 1(2)(a), must in all cases bear the CE marking and be accompanied by the EC declaration of conformity referred to in Annex II, point A.

2. Государства - члены не должны запрещать, ограничивать или препятствовать поставке на рынок машинного оборудования, если изготовитель или его уполномоченный представитель в Сообществе заявляет в соответствии с Приложением II B, что они предназначены для включения в машинное оборудование или компоноваться с другим оборудованием, так, что в соединении они составят машинное оборудование, отвечающее требованиям настоящей Директивы, за исключением тех случаев, когда они могут функционировать независимо.

"Взаимозаменяемое оборудование" в смысле третьего абзаца с черточкой в Статье 1 (2) (a) должно во всех случаях иметь маркировку "СЕ" и сопровождаться декларацией соответствия, определенной в Приложении II, пункте А.

3. Member States may not prohibit, restrict or impede the placing on the market of safety components as defined in Article 1(2) where they are accompanied by an EC declaration of conformity by the manufacturer or his authorised representative established in the Community as referred to in Annex II, point C.

3. Государства - члены не имеют права запрещать, ограничивать или препятствовать распространению на рынке компонентов безопасности, определенных Статьей 1 (2), если эти компоненты сопровождаются декларацией соответствия ЕС, заявленной изготовителем или его уполномоченным представителем в Сообществе, как определено в Приложении II, пункте С.

Article 5
1. Member States shall regard the following as conforming to all the provisions of this Directive, including the procedures for checking the conformity provided for in Chapter II:
— machinery bearing the CE marking and accompanied by the EC declaration of conformity referred to in Annex II, point A,
— safety components accompanied by the EC declaration of conformity referred to in Annex II, point C.

Статья 5
1. Государства - члены должны считать нижеследующее соответствующим всем положениям настоящей Директивы, включая процедуры проверки соответствия, предусмотренной в Главе II:
- машинное оборудование, имеющее маркировку "СЕ" и сопровождаемое декларацией соответствия ЕС, как указано в Приложении II, пункте A;
- компоненты безопасности, сопровождаемые декларацией соответствия ЕС, как указано в Приложении II, пункте C.

При отсутствии гармонизированных стандартов Государства - члены должны предпринимать любые меры, которые они сочтут необходимыми, для привлечения внимания заинтересованных сторон к существующим национальным техническим стандартам и спецификациям, которые считаются важными или относятся к выполнению основных требований по обеспечению здоровья и безопасности в соответствии с Приложением 1.

2. Where a national standard transposing a harmonised standard, the reference for which has been published in the Official Journal of the European Communities, covers one or more of the essential safety requirements, machinery or safety components constructed in accordance with this standard shall be presumed to comply with the relevant essential requirements.
Member States shall publish the references of national standards transposing harmonised standards.

2. В тех случаях, когда национальный стандарт, заменяющий гармонизированный стандарт, ссылка на который была опубликована в Официальном журнале Европейских сообществ, покрывает одно или несколько основных требований безопасности, машинное оборудование или компоненты безопасности, сконструированные в соответствии с таким стандартом, должны считаться соответствующими основным требованиям.
Государства - члены должны публиковать ссылки на национальные стандарты, заменяющие гармонизированные стандарты.

3. Member States shall ensure that appropriate measures are taken to enable the social partners to have an influence at national level on the process of preparing and monitoring the harmonised standards.

3. Государства - члены должны обеспечивать принятие необходимых мер для того, чтобы их социальные партнеры получали возможность влиять на национальном уровне на процессы подготовки и отслеживания гармонизированных стандартов.

Article 6
1. Where a Member State or the Commission considers that the harmonised standards referred to in Article 5(2) do not entirely satisfy the essential requirements referred to in Article 3, the Commission or the Member State concerned shall bring the matter before the committee set up under Directive 83/189/EEC, giving the reasons therefor. The committee shall deliver an opinion without delay.
Upon receipt of the committee’s opinion, the Commission shall inform the Member States whether or not it is necessary to withdraw those standards from the published information referred to in Article 5(2).

Статья 6
1. В случае, если Государство - член или Комиссия считают, что гармонизированные стандарты, рассмотренные в Статье 5 (2), не полностью соответствуют основным требованиям, определенным в Статье 3, Комиссия или заинтересованное Государство - член должны поставить этот вопрос на рассмотрение комитета, созданного в соответствии с Директивой 83/189/ЕЭС, обосновав причины такого обращения. Комитет должен безотлагательно вынести решение.
После получения такого решения комитета Комиссия должна информировать Государства – члены, необходимо или нет отозвать эти стандарты из опубликованной информации, определенной в Статье 5 (2).

2. A standing committee shall be set up, consisting of representatives appointed by the Member States and chaired by a representative of the Commission.

The standing committee shall draw up its own rules of procedure.

Any matter relating to the implementation and practical application of this Directive may be brought before the standing committee, in accordance with the following procedure:

The representative of the Commission shall submit to the committee a draft of the measures to be taken. The committee shall deliver its opinion on the draft, within a time limit which the chairman may lay down according to the urgency of the matter, if necessary by taking a vote.

The opinion shall be recorded in the minutes; in addition, each Member State shall have the right to ask to have its position recorded in the minutes.
The Commission shall take the utmost account of the opinion delivered by the committee.
It shall inform the committee of the manner in which its opinion has been taken into account.

2. Должен быть создан постоянно действующий комитет, состоящий из представителей, назначенных Государствами – членами, и возглавляемый представителем Комиссии.

Постоянно действующий комитет будет сам устанавливать порядок действий и процедуры.

Любой вопрос, относящийся к выполнению и практическому применению настоящей Директивы, может быть поставлен на рассмотрение постоянно действующего комитета, в соответствии со следующими правилами:

Представитель Комиссии должен представить комитету проект предполагаемых к принятию мер. Комитет должен выразить свое мнение по проекту за время, установленное председателем в соответствии со срочностью вопроса, при необходимости определяемого путем голосования.

Это мнение должно быть зафиксировано в протоколе; кроме того, каждое Государство - член имеет право потребовать отразить свою позицию в протоколе. Комиссия должна максимально учитывать мнение, вынесенное комитетом.
Она должна проинформировать комитет, каким образом было учтено его мнение.

Article 7
1. Where a Member State ascertains that:
— machinery bearing the CE marking, or
— safety components accompanied by the EC declaration of conformity, used in accordance with their intended purpose are liable to endanger the safety of persons, and, where appropriate, domestic animals or property, it shall take all appropriate measures to withdraw such machinery or safety components from the market, to prohibit the placing on the market, putting into service or use thereof, or to restrict free movement thereof.

Member States shall immediately inform the Commission of any such measure, indicating the reason for its decision and, in particular, whether non-conformity is due to:
(a) failure to satisfy the essential requirements referred to in Article 3;
(b) incorrect application of the standards referred to in Article 5(2);
(c) shortcomings in the standards themselves referred to in Article 5(2).

Статья 7
1. Если Государство - член устанавливает, что:
- машинное оборудование, имеющее маркировку "СЕ", либо
- компоненты безопасности, сопровождаемые декларацией соответствия ЕС, используемые в соответствии с их назначением, могут нести угрозу безопасности людям, и, если это имеет место, домашним животным или собственности, оно должно принять все необходимые меры для изъятия такого машинного оборудования, либо компонентов безопасности с рынка, запретить их поставку на рынок, ввод в эксплуатацию или использование, либо ограничить их свободное обращение.

Государства - члены должны немедленно информировать Комиссию о любых подобных мерах, указать причины такого решения и, в особенности, информировать о том, явилось ли это несоответствие результатом:
a) неспособности удовлетворить основным требованиям, определенным в Статье 3;
b) неправильного применения стандартов, определенных в Статье 5 (п.2);
c) недостатков самих стандартов, определенных в Статье 5 (п. 2).

2. The Commission shall enter into consultation with the parties concerned without delay. Where the Commission considers, after this consultation, that the measure is justified, it shall immediately so inform the Member State which took the initiative and the other Member States. Where the Commission considers, after this consultation, that the action is unjustified, it shall immediately so inform the Member State which took the initiative and the manufacturer or his authorised representative established within the Community.

Where the decision referred to in paragraph 1 is based on a shortcoming in the standards, and where the Member State at the origin of the decision maintains its position, the Commission shall immediately inform the committee in order to initiate the procedures referred to in Article 6(1).

2. Комиссия должна безотлагательно провести консультацию с заинтересованными сторонами. В случае, если после проведения такой консультации, Комиссия полагает, что такая мера обоснована, она должна немедленно информировать об этом Государство - член, которое выдвинуло эту инициативу, а также остальные Государства - члены. Если Комиссия после проведения такой консультации полагает, что действия не были обоснованными, она немедленно извещает об этом Государство - член, проявившее инициативу, и изготовителя, либо его уполномоченного представителя в Сообществе.

Если решение, указанное в параграфе 1, основано на недостатках в стандартах, и если Государство - член на основании такого решения сохраняет свои позиции, то Комиссия должна немедленно информировать комитет для того, чтобы начать процедуры, описанные в Статье 6 (п. 1).

3. Where:
— machinery which does not comply bears the CE marking,
— a safety component which does not comply is accompanied by an EC declaration of conformity,
the competent Member State shall take appropriate action against whom so ever has affixed the marking or drawn up the declaration and shall so inform the Commission and other Member States.

3. Если:
- машинное оборудование, не соответствующие требованиям, имеют маркировку "СЕ",
- компоненты безопасности, не соответствующие требованиям, имеют декларацию соответствия ЕС,
компетентное Государство - член должно начать соответствующие действия против любого, кто поставил маркировку, или составил декларацию, и должно проинформировать об этом Комиссию и другие Государства - члены.

4. The Commission shall ensure that Member States are kept informed of the progress and outcome of this procedure.

4. Комиссия должна обеспечить, чтобы Государства – члены были постоянно информированы о ходе и результатах данной процедуры.

CHAPTER II
CONFORMITY ASSESSMENT PROCEDURES
Article 8
1. The manufacturer or his authorised representative established in the Community must, in order to certify that machinery and safety components are in conformity with this Directive, draw up for all machinery or safety components manufactured an EC declaration of conformity based on the model given in Annex II, point A or C as appropriate.

In addition, for machinery alone, the manufacturer or his authorised representatives established in the Community must affix to the machine the CE marking.

Глава II
Процедуры оценки соответствия
Статья 8
1. Для подтверждения того, что машинное оборудование, а также компоненты безопасности соответствуют положениям настоящей Директивы, изготовитель или его уполномоченный представитель в Сообществе должен составить декларацию ЕС о соответствии на произведенное машинное оборудование и компоненты безопасности по образцу, приведенному в Приложении II, соответственно пунктам A или C.

Корме того, на машинное оборудование изготовитель или его уполномоченный представитель в Сообществе должен нанести маркировку "СЕ" в соответствии со Статьей 10.

2. Before placing on the market, the manufacturer, or his authorised representative established in the Community, shall:
(a) if the machinery is not referred to in Annex IV, draw up the file provided for in Annex V;
(b) if the machinery is referred to in Annex IV and its manufacturer does not comply, or only partly complies, with the standards referred to in Article 5(2) or if there are no such standards, submit an example of the machinery for the EC type-examination referred to in Annex VI;
(c) if the machinery is referred to in Annex IV and is manufactured in accordance with the standards referred to in Article 5(2):
— either draw up the file referred to in Annex VI and forward it to a notified body, which will acknowledge receipt of the file as soon as possible and keep it,
— submit the file referred to in Annex VI to the notified body, which will simply verify that the standards referred to in Article 5(2) have been correctly applied and will draw up a certificate of adequacy for the file,
— or submit the example of the machinery for the EC type-examination referred to in Annex VI.

2. Перед поставкой на рынок изготовитель или его уполномоченный представитель в Сообществе должен:
(a) в случае, если машинное оборудование не указано в Приложении IV, составить документацию, предусмотренную Приложением V;
(b) если машинное оборудование указано в Приложении IV, и их изготовитель не выполняет, либо выполняет лишь частично требования стандартов, упомянутых в Статье 5 (2), либо, если таких стандартов не существует, то представить образец машинного оборудования для его испытания ЕС, определенного в Приложении VI;
(c) если машинное оборудование указано в Приложении IV и изготовлено в соответствии со стандартами, определенными в Статье 5 (п. 2):
- либо составить документацию, указанную в Приложении VI, и передать ее нотифицированному органу, который подтверждает получение документации в возможно короткие сроки, а также сохраняет ее;
- представить документацию, указанную в Приложении VI, нотифицированному органу, который просто проверит, что стандарты, упомянутые в Статье 5 (2), были применены правильно и составит сертификат соответствия по этой документации;
- либо представить образец машинного оборудования для испытания ЕС типового образца, определенного в Приложении VI.

3. Where the first indent of paragraph 2(c) of this Article applies, the provisions of the first sentence of paragraphs 5 and 7 of Annex VI shall also apply.

Where the second indent of paragraph 2(c) of this Article applies, the provisions of paragraphs 5, 6 and 7 of Annex VI shall also apply.

3. В тех случаях, когда может быть применен первый абзац параграфа 2 (с) этой Статьи должны также применяться положения первого предложения параграфов 5 и 7 Приложения VI.

В тех случаях, когда может быть применен второй абзац пункта 2 (с), должны также применяться положения параграфов 5, 6 и 7 Приложения VI.

4. Where paragraph 2(a) and the first and second indents of paragraph 2(c) apply, the EC declaration of conformity shall solely state conformity with the essential requirements of the Directive.

Where paragraph 2(b) and the third indent of paragraph 2(c) apply, the EC declaration of conformity shall state conformity with the example that underwent EC type-examination.

4. В тех случаях, когда применяется параграф 2 (а) и первый и второй абзацы параграфа 2 (c), декларация ЕС о соответствии должна удостоверить соответствие основным требованиям настоящей Директивы.

В случае, когда применяется параграф 2 (b) и третий абзац параграфа 2 (c), декларация ЕС о соответствии должна удостоверить соответствие образцу, прошедшему испытание ЕС типового образца.

5. Safety components shall be subject to the certification procedures applicable to machinery pursuant to paragraphs 2, 3 and 4. Furthermore, during EC type-examination, the notified body shall verify the suitability of the safety component for fulfilling the safety functions declared by the manufacturer.

5.Компоненты безопасности должны подвергаться процедурам сертификации, применимым к машинному оборудованию в соответствии с параграфами 2, 3, 4. Более того, во время испытания ЕС типового образца нотифицированный орган должен проверить пригодность компонентов безопасности для выполнения тех функций безопасности, которые заявлены изготовителем.

6. (a) Where the machinery is subject to other Directives concerning other aspects and which also provide for the affixing of the CE marking, the latter shall indicate that the machinery is also presumed to conform to the provisions of those other Directives.
(b) However, where one or more of those Directives allow the manufacturer, during a transitional period, to choose which arrangements to apply, the CE marking shall indicate conformity only to the Directives applied by the manufacturer. In this case, particulars of the Directives applied, as published in the Official Journal of the European Communities, must be given in the documents, notices or instructions required by the directives and accompanying such machinery.

6. (a) В тех случаях, когда машинное оборудование подпадает под действие Директив по другим аспектам, которые также предусматривают нанесение маркировки "СЕ", последняя указывает, что такое машинное оборудование соответствуют положениям этих прочих директив.
(b) Тем не менее, когда одна или несколько таких Директив позволяют изготовителям в течение переходного периода выбирать, какие из положений применить, маркировка "СЕ" будет указывать на соответствие только тем Директивам, которые применялись изготовителем. В этом случае подробная информация о примененных Директивах, опубликованных в Официальном журнале Европейских сообществ, должен приводиться в документах, аннотациях или инструкциях, требуемых в соответствии с Директивами, и сопровождать такое машинное оборудование.

7. Where neither the manufacturer nor his authorised representative established in the Community fulfils the obligations of paragraphs 1 to 6, these obligations shall fall to any person placing the machinery or safety component on the market in the Community. The same obligations shall apply to any person assembling machinery or parts thereof or safety components of various origins or constructing machinery or safety components for his own use.

7. Если ни изготовитель, ни его уполномоченный представитель в Сообществе не выполнят своих обязательств по предыдущим параграфам, то эти обязательства должны быть выполнены любыми лицами, поставляющими машинное оборудование или компоненты безопасности на рынок Сообщества. Такие же обязательства возлагаются на любые лица, осуществляющие сборку машинного оборудования, либо его частей или компонентов безопасности различного происхождения, либо создающие машинное оборудование или компоненты безопасности для собственного пользования.

8. The obligations referred to in paragraph 7 shall not apply to persons who assemble with a machine or tractor interchangeable equipment as provided for in Article 1, provided that the parts are compatible and each of the constituent parts of the assembled machine bears the CE marking and is accompanied by the EC declaration of conformity.

8. Обязательства, изложенные в параграфе 7, не применяются к лицам, которые собирают с машиной, механизмом или транспортным средством взаимозаменяемое оборудование, указанное в Статье 1, при условии, что эти части совместимы, и каждая из частей машины в сборе имеет маркировку "СЕ" и Декларацию ЕС о соответствии.

Article 9
1. Member States shall notify the Commission and the other Member States of the approved bodies which they have appointed to carry out the procedures referred to in Article 8 together with the specific tasks which these bodies have been appointed to carry out and the identification numbers assigned to them beforehand by the Commission.
The Commission shall publish in the Official Journal of the European Communities a list of the notified bodies and their identification numbers and the tasks for which they have been notified. The Commission shall ensure that this list is kept up to date.

Статья 9
1. Государства - члены должны уведомить Комиссию и другие Государства - члены об утвержденных органах, которые назначаются для выполнения процедур, описанных в Статье 8, также как и для различных особых задач, которые этим органам предназначено выполнять, и об идентификационных номерах, предварительно присвоенных им Комиссией.

В Официальном журнале Европейских сообществ Комиссия должна публиковать список таких нотифицированных органов и их идентификационные номера, а также задачи, для решения которых они предназначены. Комиссия должна обеспечить своевременность обновления списка.

2. Member States shall apply the criteria laid down in Annex VII in assessing the bodies to be indicated in such notification. Bodies meeting the assessment criteria laid down in the relevant harmonised standards shall be presumed to fulfil those criteria.

2. Государства - члены должны применять критерии, изложенные в Приложении VII, для определения органов, которые будут указаны в таких назначениях. Органы, удовлетворяющие критериям, изложенным в соответствующих гармонизированных стандартах, считаются соответствующими критериям.

3. A Member State which has approved a body must withdraw its notification if it finds that the body no longer meets the criteria referred to in Annex VII. It shall immediately inform the Commission and the other Member States accordingly.

3. Государство - член, утвердившее такой орган, должно отменить его назначение, если оно обнаружит, что он больше не соответствует критериям, изложенным в Приложении VII. Государство - член должно немедленно известить об этом Комиссию и другие Государства - члены.

CHAPTER III
CE MARKING
Article 10
1. The CE conformity marking shall consist of the initials ‘CE’. The form of the marking to be used is shown in Annex III.

ГЛАВА III
МАРКИРОВКА "СЕ"
Статья 10
1. Маркировка "СЕ" состоит из заглавных букв "СЕ". Форма маркировки, которая будет использоваться, указана в Приложении III.

2. The CE marking shall be affixed to machinery distinctly and visibly in accordance with point 1.7.3 of Annex I.

2. Маркировка "СЕ" должна наноситься на машинное оборудование четко, на видном месте в соответствии с пунктом 1.7.3. Приложения I.

3. The affixing of markings on the machinery which are likely to deceive third parties as to the meaning and form of the CE marking shall be prohibited. Any other marking may be affixed to the machinery provided that the visibility and legibility of the CE marking is not thereby reduced.

3. Нанесение маркировок на машинное оборудование таким образом, что это может ввести в заблуждение относительно значения и формы маркировки "СЕ", запрещено. Любые другие маркировки могут быть нанесены на машинное оборудование таким образом, чтобы не мешать видимости и различимости маркировки "СЕ".

4. Without prejudice to Article 7:
(a) where a Member State establishes that the CE marking has been affixed unduly, the manufacturer or his authorised representative established within the Community shall be obliged to make the product conform as regards the provisions concerning the CE marking and to end the infringement under the conditions imposed by the Member State;

(b) where non-conformity continues, the Member State must take all appropriate measures to restrict or prohibit the placing on the market of the product in question or to ensure that it is withdrawn from the market in accordance with the procedure laid down in Article 7.

4. Без ограничения применения Статьи 7:
(a) если Государство - член устанавливает, что маркировка "СЕ" была нанесена неправильно, изготовитель или его уполномоченный представитель в Сообществе будет обязан привести продукцию в соответствии с положениями, касающимися маркировки "СЕ" и положить конец нарушениям на условиях, установленных Государством - членом;

(b) если такое несоответствие будет продолжаться, то Государство - член должно принять все соответствующие меры для ограничения или запрещения поставки на рынок такой продукции, либо обеспечить изъятие ее с рынка в соответствии с процедурами, изложенными в Статье 7.

CHAPTER IV
FINAL PROVISIONS
Article 11
Any decision taken pursuant to this Directive which restricts the placing on the market and putting into service of machinery or a safety component shall state the exact grounds on which it is based. Such a decision shall be notified as soon as possible to the party concerned, who shall at the same time be informed of the legal remedies available to him under the laws in force in the Member State concerned and of the time limits to which such remedies are subject.

ГЛАВА IV
ЗАКЛЮЧИТЕЛЬНЫЕ ПОЛОЖЕНИЯ
Статья 11
Любое решение, принятое в исполнение настоящей Директивы, ограничивающее поставку на рынок и ввод в эксплуатацию машинного оборудования или компонентов безопасности, должно указывать точные причины, на которых оно основано. Такое решение должно быть по возможности быстро доведено до сведения заинтересованных сторон, их также следует проинформировать о законных мерах, которые могут быть предприняты по действующему законодательству в соответствующем Государстве - члене и о сроках, в которые данные меры применяются.

Article 12
The Commission will take the necessary steps to have information on all the relevant decisions relating to the management of this Directive made available.

Статья 12
Комиссия предпримет все необходимые шаги для получения информации по всем соответствующим решениям, касающимся применения и распространения настоящей Директивы.

Article 13
1. Member States shall communicate to the Commission the texts of the provisions of national law which they adopt in the field governed by this Directive.

2. The Commission shall, before 1 January 1994, examine the progress made in the standardisation work relating to this Directive and propose any appropriate measures.

Статья 13
1. Государства - члены должны передать Комиссии тексты положений национальных законодательных актов, принимаемых в сфере, определяемой настоящей Директивой.

2. Комиссия должна до 1 января 1994 г. изучить развитие работ по стандартизации, относящиеся к области действия настоящей Директивы и предложить любые целесообразные меры.

Тематики

• безопасность машин и труда в целом

EN

• machinery

 

машины
оборудование
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва]

машины
Машина представляет собой аппарат, использующий или применяющий механическую энергию, состоящий из нескольких частей — каждая со своими определенными функциями, которые вместе выполняют некоторые виды работ. Для целей анализа это понятие включает отдельные машины или наборы машин. См. Машины и оборудование (МСО)
[ http://slovar-lopatnikov.ru/]

Тематики

• экономика
• электротехника, основные понятия

Синонимы

• оборудование

EN

• machinery

 

машины и оборудование
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

машины и оборудование
МСО
Часть основных фондов компании (предприятия), которая включает устройства, преобразующие энергию, материалы и информацию. В аналитической и оценочной практике в общее понятие М. и о. включаются отдельно оцениваемые установки, машины, оборудование и транспортные средства, подразделяемые на виды, а каждый вид – на марки (последним термином для краткости можно обозначать разные модели и модификации машины). Разные марки машин одного вида используются для одних и тех же целей: они способны производить одну и ту же продукцию, выполнять одни и те же работы или оказывать одни и те же услуги ( в противном случае их надо относить в другому виду машин), а следовательно, «взаимозаменяемы» и являются товарами, конкурирующими между собой на рынке Рынок машин каждого вида делится на первичный (новые М..) и вторичный (бывшие в эксплуатации), для которых применяются разные оценочные приемы и инструменты.. М.и о. являются главным объектом инвестирования при разработке и реализации инвестиционного проекта, и, соответственно, одним из основных элементов оценки инвестиционных проектов. Важно, что в отличие от ценных бумаг, акций, М.и о. являются объектами реальных инвестиций, а не финансовых инвестиций.
[ http://slovar-lopatnikov.ru/]

EN

machinery
A group of parts or machines arranged to perform a useful function. (Source: MGH)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды
• экономика

Синонимы

• МСО

EN

• machinery
• machinery and equipment

DE

• Maschine

FR

• machine

 

механизм
Совокупность подвижно соединённых звеньев, совершающих под действием приложенных сил заранее определённые целесообразные движения
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]

машины, механизмы
Совокупность связанных между собой частей и устройств, как минимум одно из которых движется, имеет соответствующий привод, органы управления и энергетические узлы, соединенные вместе для определенного применения, например для обработки, переработки, производства, транспортирования или упаковки материалов.
Термины «машина» и «механизм» также распространяются на совокупность машин, которые размещаются и управляются таким образом, чтобы функционировать как единое целое.
Примечание
В приложении А приведено общее схематическое изображение машины.
[ ГОСТ Р ИСО 12100-1:2007]

EN

• machinery
• mechanism

DE

• Mechanismus

FR

• mécanisme

 

оборудование
Совокупность связанных между собой частей или устройств, из которых по крайней мере одно движется, а также элементы привода, управления и энергетические узлы, которые предназначены для определенного применения, в частности для обработки, производства, перемещения или упаковки материала. К термину «оборудование» относят также машину и совокупность машин, которые так устроены и управляемы, что они функционируют как единое целое для достижения одной и той же цели.
[ГОСТ ЕН 1070-2003]

оборудование
-
[IEV number 151-11-25 ]

оборудование
Оснащение, материалы, приспособления, устройства, механизмы, приборы, инструменты и другие принадлежности, используемые в качестве частей электрической установки или в соединении с ней.
[ ГОСТ Р МЭК 60204-1-2007]

EN

equipment
single apparatus or set of devices or apparatuses, or the set of main devices of an installation, or all devices necessary to perform a specific task
NOTE – Examples of equipment are a power transformer, the equipment of a substation, measuring equipment.
[IEV number 151-11-25 ]

equipment
material, fittings, devices, components, appliances, fixtures, apparatus, and the like used as part of, or in connection with, the electrical equipment of machines
[IEC 60204-1-2006]

FR

équipement, m
matériel, m
appareil unique ou ensemble de dispositifs ou appareils, ou ensemble des dispositifs principaux d'une installation, ou ensemble des dispositifs nécessaires à l'accomplissement d'une tâche particulière
NOTE – Des exemples d’équipement ou de matériel sont un transformateur de puissance, l’équipement d’une sous-station, un équipement de mesure.
[IEV number 151-11-25]

Тематики

• электробезопасность

EN

• accessories
• apparatus
• appliance
• assets
• environment
• equipment
• facility
• fitment
• fixing
• gear
• H/W
• hardware
• hardware environment
• HW
• installation
• instrument
• instrumentation
• layout
• machinery
• outfit
• paraphernalia
• plant
• plant stock
• product
• provisions
• rig
• rigging
• set-up
• stock-in-trade
• tackle
• technical equipment
• technique

DE

• Ausrüstung
• Betriebsmittel
• Maschine

FR

• machine
• matériel, m
• équipement, m

 

организационный аппарат
—
[ http://www.iks-media.ru/glossary/index.html?glossid=2400324]

Тематики

• электросвязь, основные понятия

EN

• machinery

3.26 машины (machinery): Устройство, состоящее из соединенных между собой частей или компонентов, по крайней мере, один из которых движется, с соответствующими исполнительными механизмами, силовыми цепями и цепями управления и т.д., объединенных вместе в целях конкретного применения, в частности, для обработки, переработки, перемещения или упаковки материала (материал означает эквивалент вещества или изделия).

Термин «машины» одновременно означает совокупность машин и механизмов, которые для достижения одной и той же цели установлены и управляются таким образом, что они функционируют как единое целое.

Источник: ГОСТ Р ЕН 1127-2-2009: Взрывоопасные среды. Взрывозащита и предотвращение взрыва. Часть 2. Основополагающая концепция и методология (для подземных выработок)

machine

1) машина

2) станок || подвергать механической обработке

3) установка; устройство; агрегат

4) механизм

- machine for flame treating polymer articles

- machine for making hygienic paper products

- acid-blast machine

- addressing machine

- adhesive tape lathe cutting machine

- adhesive tape wrapping machine

- American machine

- ammonia-type diazo copying machine

- aniline printing machine

- automatic machine

- automatic machine for casting spacing material

- automatic bundling machine

- automatic card index machine

- automatic composing and slug-casting machine

- automatic composing and type-casting machine

- automatic exercise book machine

- automatic gathering, stitching and trimming machine

- automatic glue binding machine

- automatic loose-leaf filler machine

- automatic palletizing machine

- automatic parceling machine

- automatic photocomposing machine

- automatic rewinding machine

- automatic roll winding machine

- automatic slitting machine

- automatic stop cylinder machine

- automatic trimming machine for continuous run

- back glueing-and-stripping machine

- backing machine

- backing-and-rounding machine

- backlining machine

- back stripping machine

- backward skip-wheel numbering machine

- bagging and sealing machine

- bag making machine

- bag welding machine

- banding machine

- banknote printing machine

- batching machine

- beer mat-making machine

- Benday machine

- bending machine

- beveling machine

- blade folding machine

- blanket-to-blanket machine

- block finishing machine

- blocking foil printing machine

- blueprinting machine

- board machine

- board-slitting rotary machine

- book back glueing machine

- book backlining machine

- book back rounding machine

- book back rounding and pressing machine

- bookbinding machines

- bookbinding and powered punch machine

- book block pasting machine

- bookcase making machine

- book casing-in machine

- book forming and pressing machine

- book glueing machine

- book headbanding and backlining machine

- book imprinting machine

- book jacketing machine

- book joint burning-in machine

- book joint setting machine

- bookletting machine

- bookmatch cover production machine

- book pressing machine

- book punching machine

- book sewing machine

- book smashing machine

- book trimming machine

- book wrapping machine

- bowling machine

- box glueing machine

- box lining machine

- box mitering machine

- box stitching machine

- braille writing machine

- bronzing machine

- buckle-and-blade folding machine

- buckle folding machine

- buffing machine

- building-in machine

- bundle tying machine

- bundling machine

- burnishing machine

- calendering machine

- can printing machine

- carbon paper machine

- carbon paper cutting and winding machine

- carbon paper making machine

- carbon tissue transfer machine

- card folding machine

- card printing machine

- carrier bag handle glueing machine

- carrier bag making machine

- carton box fabricating machine

- cartoning machine

- carton taping machine

- case assembling machine

- case assembling and turning-in machine

- case blocking machine

- case-making machine

- case-straightening machine

- cash register reel making machine

- casing-in machine

- casting machine

- centrifugal machine

- circular sheeting machine

- cloth cutting machine

- coating machine

- coating and spreading machine

- code marking machine

- cold-type machine

- collating machine

- collotype machine

- color control chart printing machine

- color duct washing machine

- color grinding machine

- color mixing machine

- color plate preregistering machine

- color printing machine

- color separation machine

- composing machine

- composing and slug-casting machine

- computer stationary printing machine

- computing machine

- conditioning machine

- contact printing photocopying machine

- container forming machine

- container printing machine

- continuous sheet printing machine

- converting machine

- convolute winding machine

- copperplate printing machine

- copy duplicator machine

- copying machine

- copy-making machine

- core-cutting machine

- corner-cutting machine

- corner-punching machine

- corner-rounding machine

- corrugated board converting machine

- corrugated paperboard making machine

- covering machine

- creasing machine

- creasing and gumming machine

- creasing and scoring machine

- cutting machine

- cylinder machine

- cylinder board machine

- cylinder-etching machine

- cylinder letterpress printing machine

- damper roller cleaning machine

- date block fixing machine

- daylight developing machine

- decked type machine

- diazo copying machine

- diazo reproducing machine

- die-cutter machine

- die-cutting machine

- dilitho printing machine

- direct lithographic machine

- direct pressure machine

- disk ruling machine

- display filmsetting machine

- distributing machine

- doctor blade sharpening machine

- document sorting machine

- dotting machine

- double-action machine

- double cylindrical machine

- double feeder mailing machine

- double knife cutting machine

- doubling machine

- drilling machine

- drop wheel design numbering machine

- drum cylinder machine

- dry black-leading machine

- dry-laying machine

- dry-mounting machine

- dual-mode printing machine

- duplicate bookmaking machine

- duplicating machine

- dusting machine

- dusting-off machine

- dyeing machine

- edge binding machine

- edge-gilding machine

- edge-milling machine

- edge-planing machine

- edge-trimming machine

- edging machine

- electronic engraving machine

- electronic stencil machine

- electrophotocopying reproduction machine

- electrophotographic halftone printing machine

- elfectrophotographic reproduction machine

- electrostatographic machine

- electrostatographic printing machine

- embossing machine

- embossing and cutting/creasing machine

- emulsion machine

- end-and-front sheet pasting machine

- end-papering machine

- engraving machine

- envelope blank die-cutting punching machine

- envelope-making machine

- etching machine

- exercise bookmaking machine

- exposure machine

- eyeletting machine

- facsimile machine

- facsimile printing machine

- fancy paper making machine

- fan-folding machine

- film-bag machine

- film cutting machine

- film laminating machine

- filmsetting machine

- film wrapping machine

- flat-and-back stripping machine

- flat-bed machine

- flat-bed rotary machine

- flat-bed screen printing machine

- flat-bed web-fed machine

- flat-planing machine

- flat-shaving machine

- flexographic printing machine

- flow type powderless etching machine

- flushing machine

- foil blocking machine

- foil cutting machine

- foil embossing machine

- foil laminating machine

- fold burning-in machine

- folding machine

- folding-binding machine

- folding box erecting machine

- folding box punching machine

- fold-pressing machine

- forming machine

- forward skip-wheel numbering machine

- four step spine nipping machine

- franking machine

- funnel rubbing machine

- gathering machine

- gathering-and-stitching machine

- gilding machine

- glazing machine

- glossing machine

- glueing machine

- glue-off machine

- gold blocking machine

- graining machine

- gravure lay-on machine

- gravure printing machine

- greeting card wrapping machine

- grinding machine

- grinding machine for scraper blades

- gumming machine

- halftone printing machine

- hand lettering machine

- hand numbering machine

- hand-operated cutting machine

- hand printing machine

- hardcopy printout machine

- head-band making machine

- headline machine

- helioprinting machine

- high-performance folding machine

- hole punching machine

- hot-foil blocking platen machine

- hot foiling machine

- hot-metal composing machine

- hot-metal typesetting machine

- hydraulic smashing machine

- image reproduction machine

- impregnating machine

- imprinting machine

- index cutting and printing machine

- index punching machine

- inker wash-up machine

- ink testing machine

- in-line machine

- in-line paper conversion machine

- in-line printing and converting machine

- inserting machine

- intertype composing machine

- typesetting machine

- jogging machine

- keyboardless line-casting machine

- keyboard perforating machine

- key-punch machine

- knife grinding machine

- knife-type folding machine

- label applying machine

- labeling machine

- label printing machine

- label punching machine

- laminating machine

- large-body photosetting machine

- large-body slug-casting machine

- laydown machine

- laying carbon tissue transfer machine

- leaflet inserting machine

- lettering machine

- letterpress machine

- letterpress platemaking machine

- lever-file making machine

- light-printing machine

- line-casting machine

- line-setting machine

- lining machine

- lining-and-head-banding machine

- linotype composing machine

- loose-leaf filler machine

- loose-sheet binding machine

- magazine-type rotary printing machine

- mailing machine

- mangling machine

- marbling machine

- mask cutting machine

- master-making machine

- match skillet printing machine

- matrix-engraving machine

- matrix-molding machine

- matrix-rolling machine

- mechanical binding machine

- mechanical screw smashing machine

- metal decorating machine

- metallizing machine

- microfiche machine

- microfiche viewer-printer machine

- microfilm machine

- mimeograph printing machine

- miniature folding machine

- mitereing machine

- mixer-type composing machine

- mixing machine

- moistening machine

- monotype casting machine

- monotype composing machine

- mounting machine

- multicolor machine

- multicolor electrophotographic printing machine

- multicolor gravure printing machine

- multifont photocomposing machine

- multilens photocoroposing machine

- multiple-head paper drilling machine

- multiple-head saddle-stitching machine

- multiple-web machine

- multistation printing machine

- multiweb machine

- nailing machine

- narrow-web printing machine

- narrow-width machine

- negative grouping machine

- newspaper stuffing machine

- newspaper wrapping machine

- newsprint machine

- nipping machine

- note pad machine

- numbering machine

- numbering-and-perforating machine

- office printing machine

- offset damper roller washing machine

- offset duplicating machine

- offset flat-bed machine

- offset printing machine

- overlap-forms making machine

- oversewing machine

- package tying machine

- packaging machine

- packing machine

- paddle-type etching machine for photoengravers

- paging machine

- palletizing machine

- paper-baling machine

- paper-boxmaking machine

- paper-coating machine

- paper-conditioning machine

- paper cone machine

- paper-converting machine

- paper corner-cutting machine

- paper-cutting machine

- paper-drilling machine

- paper-feeding machine

- paper-folding machine

- paper-inverting machine

- paper-making machine

- paper plate making machine

- paper-seasoning machine

- paper serviette machine

- paper-trimming machine

- paraffining machine

- parceling machine

- pen-ruling machine

- perfect binding machine

- perfecting machine

- perforating machine

- photocomposing machine

- photocopying machine

- photoelectrophoretic web machine

- photographic composing machine

- photographic printing machine

- photogravure doctor blade grinding machine

- photogravure proofing machine

- photolettering machine

- photolithoplate coating machine

- photoruling machine

- photosetting machine

- photostamp making machine

- phototypesetting machine

- phototypesetting/image setting machine

- pigment paper transferring machine

- plain paper copying machine

- planing machine

- plastic binding machine

- plastic comb binding machine

- plastic comb rolling machine

- plastic plate molding machine

- plastic welding machine

- plastic wrapping machine

- plate bending machine

- plate coating machine

- plate finishing machine

- plate folding machine

- plate graining machine

- platen machine

- plate punching machine

- portable folding machine

- postage metering machine

- postage stamp perforation machine

- powderless etching machine

- powderless zinc etching machine

- precision metal bending machine

- pressing machine

- printing machine

- printing-and-developing machine

- printing-and-folding machine

- printing-down machine

- processing machine

- proofing machine

- punching and spiral binding machine

- punching-and-spiraling machine

- reading machine

- ream wrapping machine

- record jacket machine

- record sleeve machine

- reel doctor machine

- reel-fed machine

- reel laminating machine

- reel processing machine

- reel wrapping machine

- repeat 3 numbering machine

- reproducing machine

- reproduction machine

- reprography machine

- rewinding machine

- ribbon-inking machine

- riveting machine

- roll doctor machine

- roller casting machine

- roller grinding machine

- roll-fed casemaking machine

- rolling machine

- roll-processing machine

- roll-wrapping machine

- rotary machine

- rotary board-slitting machine

- rotary cutting machine

- rotary die-cutter machine

- rotary envelope machine

- rotary gathering machine

- rotary letterset printing machine

- rotary mimeograph machine

- rotary newspaper printing machine

- rotary offset machine

- rotary plate cleaning machine

- rotary pocket machine

- rotary powderless etching machine

- rotary printing machine

- rotary printing-and-die-cutting machine

- rotary web printing machine

- round corner beveling machine

- round cornering machine

- rounding machine

- rounding and backing machine

- round plate finishing machine

- routing machine

- rubber plate molding machine

- rubber stamp making machine

- rubber stereo making and mounting machine

- ruling machine

- sack printing machine

- saddle gathering machine

- saddle stitch machine

- scanning machine

- scarfing machine

- scoring machine

- screen process printing machine

- seal printing and embossing machine

- sealing machine

- seasoning machine

- sectional printing and die-cutting machine

- section folding machine

- section folding-and-stitching machine

- section gathering machine

- security packaging machine

- security printing machine

- semiautomatic book sewing machine

- semiautomatic casing-in machine

- semiautomatic casting machine for curved stereotypes

- semiautomatic label cutting machine

- semimechanical composing machine

- sewing machine

- shading machine

- shearing machine

- sheet airing machine

- sheet-copper machine

- sheet fanning machine

- sheet-fed machine

- sheet-fed casemaking machine

- sheet-fed rotary letterpress machine

- sheet-folding machine

- sheet numbering machine

- sheet printing and stamping machine

- sheet processing machine

- sheet separating machine

- sheet-varnishing machine

- shrink-packaging machine

- shrink-wrapping machine

- side stitch machine

- signature collating and binding machine

- signature feeding machine

- signature gathering machine

- signature tipping machine

- silk-screen printing machine

- Simplex tipping machine

- single-cylinder machine

- single-knife cutting machine

- single-revolution machine

- single-width machine

- sizing machine

- skip numbering machine

- slit scanning type photocopying machine

- slitting machine

- slitting-and-rewinding machine

- slug-casting machine

- small buckle folding machine

- small offset printing machine

- small plate machine

- smashing machine

- solvent-washing machine

- spine rolling machine

- spine taping machine

- spiral binding machine

- stacking machine

- stacking/pressing machine

- stapling machine

- steel rule die-making machine

- stencil machine

- stencil duplicating machine

- step-and-advance machine

- step-and-repeat machine

- stereotype matrix pretreating machine

- stereotype plate casting machine

- stitching machine

- stop-cylinder machine

- stop-cylinder automatic letterpress machine

- storage retrieval machine

- strapping machine

- stretching machine for printing plates

- stripping machine

- studio lettering machine

- tabbing machine

- tabs inserting machine

- tag and ticket making machine

- tandem printing machine

- tapeless folding machine

- taping machine

- tensionless winding machine

- textile printing machine

- thermographic machine

- thermographic copying machine

- thread sewing machine

- thread-stitching machine

- thread stringing and knotting machine for tags

- ticket printing machine

- tip-on machine

- tipping machine

- toner machine

- transfer machine

- treadle platen machine

- trimming machine

- tube cutting-off machine

- tube-sizing machine

- tubular-plate finishing machine

- twine tying machine

- two-color offset machine

- two-revolution machine

- tying machine

- type-casting machine

- type-high machine

- typesetting machine

- typographic machine

- variable size paper folding machine

- varnishing machine

- varityper composing machine

- vat machine

- vertical step-and-repeat machine

- viewer-printer machine

- V-notching machine

- wallpaper printing machine

- wallpaper printing and embossing machine

- wallpaper roll cutting and winding machine

- wallpaper wrapping machine

- washing machine

- washout machine

- water marking machine

- waxing machine

- web machine

- web converting machine

- web processing machine

- web-rotary machine

- web-rotary movable-type printing machine

- web winding machine

- wet black-leading machine

- wet-laying machine

- wetting machine

- whirler machine

- whiteprint machine

- window glueing machine

- wire stapling machine

- wire-stitching machine

- wire-tying machine

- wooden printing machine

- wrapping machine

- wrapping and stringing machine

- wrap tying machine

- writing machine

- writing pad machine

- xerographic copying machine

- xerographic printing machine

- zinc plate grinding machine

electronic

elək'tronik

adjective

1) (worked or produced by devices built or made according to the principles of electronics: an electronic calculator.) electrónico

2) (concerned or working with such machines: an electronic engineer.) electrónico

electronic

tr[ɪlek'trɒnɪk]

adjective

1 electrónico,-a

\

SMALLIDIOMATIC EXPRESSION/SMALL

electronic mail correo electrónico

electronic mailbox buzón nombre masculino electrónico

electronic [i.lɛk'trɑnɪk] adj

: electrónico

♦ electronically [-nɪkli] adv

electronic

adj.

• electrónico, -a adj.

ɪ'lek'trɑːnɪk, ˌɪlek'trɒnɪk

adjective electrónico

electronic data processing — procesamiento m electrónico de datos

electronic publishing — edición f electrónica

electronic tag — etiqueta f de control electrónico

[ɪlek'trɒnɪk]

1.

ADJ [equipment, circuit, information, signal] electrónico

the electronic age — la edad de la electrónica

2.

CPD

electronic banking N — banca f informatizada

electronic book N — libro m electrónico

electronic data processing N — procesamiento m electrónico de datos

electronic engineer N — ingeniero(-a) m / f electrónico(-a)

electronic engineering N — ingeniería f electrónica

electronic funds transfer N — transferencia f electrónica de fondos

electronic mail N — correo m electrónico

electronic mailbox N — buzón m electrónico

electronic music N — música f electrónica

electronic news gathering N — recogida f electrónica de noticias

electronic point of sale N — punto m de venta electrónico

electronic publishing N — edición f electrónica

electronic shopping N — compra f computerizada

electronic smog N — radiación f electromagnética

electronic surveillance N — vigilancia f electrónica

electronic tagging N — etiquetado m electrónico

* * *

[ɪ'lek'trɑːnɪk, ˌɪlek'trɒnɪk]

adjective electrónico

electronic data processing — procesamiento m electrónico de datos

electronic publishing — edición f electrónica

electronic tag — etiqueta f de control electrónico

monitor

automatic data processing

• näyttölaite

• järjestäjä

• varoitin

automatic data processing

• valvoa (ATK)

• valvonta-

automatic data processing

• valvontaohjelma (ATK)

• valvoa

• valvontaohjelma

• valvoja

• monitori

• myötäkuuntelulaite

• panssaritykkivene

• seurantarata

• säädellä

• tarkkailulaite

• tarkkailu-

• tarkkain

• tarkkailla

• tarkkailija

• kuuntelulaite

* * *

'monitə 1. noun

1) (a senior pupil who helps to see that school rules are kept.) seniorioppilas, järjestäjä

2) (any of several kinds of instrument etc by means of which something can be constantly checked, especially a small screen in a television studio showing the picture which is being transmitted at any given time: television monitor; computer monitor.) monitori

2. verb

(to act as, or to use, a monitor; to keep a careful check on: These machines/technicians monitor the results constantly.) valvoa

electronic

adjective

elektronisch; Elektronen[uhr, -orgel, -blitz]

electronic news-gathering — elektronische Berichterstattung

* * *

[elək'tronik]

adjective

1) (worked or produced by devices built or made according to the principles of electronics: an electronic calculator.) elektronisch

2) (concerned or working with such machines: an electronic engineer.) Elektronik-...

* * *

elec·tron·ic

[ˌelekˈtrɒnɪk, ˌi:lekˈ-, AM ɪˌlekˈtrɑ:n-, ˌi:lekˈ-]

adj inv elektronisch

\electronic calculator Elektronenrechner m

\electronic data processing elektronische Datenverarbeitung

\electronic guitar Elektrogitarre f, E-Gitarre f

\electronic organ elektronische Orgel

* * *

[Ilek'trɒnɪk]

adj

elektronisch; information elektronisch gespeichert

the electronic age — das elektronische Zeitalter

* * *

electronic [ˌılekˈtrɒnık; US ıˌlekˈtrɑ-]

A adj (adv electronically) elektronisch, Elektronen…:

electronic banking Electronic Banking n (kundenbezogene, EDV-gestützte Bankdienstleistungen);

electronic brain umg Elektronengehirn n (Computer);

electronic commerce elektronischer Handel;

electronic data processing elektronische Datenverarbeitung;

electronic flash FOTO Elektronenblitz (-gerät n) m;

electronic mail elektronische Post;

electronic music elektronische Musik;

electronic point of sale elektronische Verkaufsstelle;

electronic publishing Electronic Publishing n (Herausgabe von Verlagserzeugnissen auf elektronischen Medien);

electronic tag JUR elektronische Fußfessel; → academic.ru/23232/eavesdropping">eavesdropping

B spl

a) (als sg konstruiert) Elektronik f (Zweig der Elektrotechnik)

b) Elektronik f (eines Geräts)

* * *

adjective

elektronisch; Elektronen[uhr, -orgel, -blitz]

electronic news-gathering — elektronische Berichterstattung

* * *

adj.

elektronisch adj.

automation

• automaatti

automatic data processing

• automaatti (ATK)

• automaatio

• automatisointi

• automaatti(tietotekn)

* * *

noun ((in factories etc) the use of machines, especially to work other machines: Automation has resulted in people losing their jobs.) automaatio

scanner

• tutka-antenni

automatic data processing

• tutkain

automatic data processing

• skanneri

• pyyhin

• selausohjelma

• kuvanlukija

• kuvanlukulaite

* * *

noun (a machine etc that scans: Scanners are machines that show the contents of your luggage on a scereen; an ultrasound scanner; an optical scanner.) skanneri, tutkain

software

automatic data processing

• ohjelmisto (ATK)

• ohjelmisto(tietotekn)

automatic data processing

• ohjelmisto

• ohjelma

• tietokoneohjelma

• pehmo

* * *

noun (computer programs, as opposed to the machines themselves (hardware).) ohjelmisto

machine

1) машина; механизм; устройство || машинный

2) вычислительная машина; счётная машина (см. тж calculator, computer)

3) редк. процессор

•

- accounting machine

- adding machine
- alphanumeric machine
- alphameric machine
- artificial intelligence machine
- backup machine
- bad machine
- bare machine
- betting machine
- Boltzmann machine
- bookkeeping machine
- bottom-up machine
- bridge machine
- business calculating machine
- business machine
- butterfly machine
- calculating machine
- card-punching machine
- card-punch machine
- card-to-tape machine
- cellular automata machine
- character-oriented machine
- cipher machine
- clerical machine
- clock machine
- code machine
- collating machine
- computer assisted drafting machine
- computing machine
- connection machine
- cryptographic machine
- data flow machine
- data processing machine
- data structure machine
- database machine
- data-driven machine
- determinate machine
- diagnostic machine
- dictating machine
- direct-coupled machines
- document-originating machine
- duplex calculating machine
- electric calculating machine
- electromechanical machine
- electronic accounting machine
- electronic punch-card machine
- finite memory machine
- finite state machine
- friendly machine
- fully redundant machine
- game-playing machine
- game machine
- ganged machine
- good machine
- hardcopy machine
- hardware-realized machine
- inference machine
- information processing machine
- information-logical machine
- information-lossless machine
- key punch machine
- knowledge machine
- knowledgebase machine
- language-specific machine
- learning machine
- Lisp-based machine
- Lisp machine
- logger machine
- logical machine
- logic machine
- long wordlength machine
- Markovian machine
- maze-solving machine
- microprogrammable machine
- MIMD machine
- MS-DOS machine
- multiple-instruction multiple-data stream machine
- multiple-instruction multiple-data machine
- N/C machine
- N-bit machine
- NC machine
- network access machine
- non-numeric machine
- non-speculating machine
- non-Von-Neumann machine
- N-state machine
- numerical control machine
- object machine
- object-based machine
- OS implemented abstract machine
- paged machine
- parallel machine
- physical machine
- playing machine
- plotting machine
- POS machine
- protocol machine
- punched card machine
- punch card machine
- punched-tape machine
- pyramid-vision machine
- reading machine
- reduction machine
- relational algebra machine
- reservation machine
- scalar machine
- scanning machine
- self-organizing machine
- self-replicatind machine
- sequential machine
- sequential-processor machine
- serial machine
- series machine
- SIMD machine
- single-instruction multiple-data stream machine
- single-instruction multiple-data machine
- single-user machine
- sorting machine
- sound machine
- source machine
- speaker recognition machine
- stack machine
- state machine
- statistical machine
- super inference machine
- symbol-manipulatind machine
- tabulating machine
- tagged-token machine
- tag-token machine
- tape-operated machine
- target machine
- teaching machine
- teller machine
- thinking machine
- top-down machine
- transformation machine
- translating machine
- Turing machine
- user machine
- vector machine
- virtual machine
- Von Neumann machine

machine

1) машина; механизм; станок

2) транспортное средство (напр. автомобиль; самолёт)

3) механизм, (организационный) аппарат

- machines for labeling

- machines for wrapping

- accounting machine

- adding machine

- administrative machine

- autoteller machine

- bookkeeping machine

- business machine

- calculating machine

- change-issuing vending machine

- desk machine

- electrical accounting machine

- electronic data processing machine

- farm machine

- gluing and sealing machine

- invoicing machine

- multiplying machine

- multiproduct vending machine

- penny-in-the-slot machine

- planning machine

- political machine

- proof machine

- standard machine

- tabulating machine

- vending machine

- working machine