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1 well-developed machine
Автоматика: станок высокого технического уровняУниверсальный англо-русский словарь > well-developed machine
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2 well-developed machine
English-Russian dictionary of mechanical engineering and automation > well-developed machine
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3 machine
станок; машина || обрабатывать на станкеto machine all over — обрабатывать ( изделие) кругом
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 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
machine with sliding frame — станок с подвижной рамой, станок с перемещающейся рамой
- 2 m3 machinemachine with traveling table for shaping — станок с подвижным столом для раскроя по формату, станок с перемещающимся столом для раскроя по формату
- 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 machineEnglish-Russian dictionary of mechanical engineering and automation > machine
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4 McKay, Hugh Victor
SUBJECT AREA: Agricultural and food technology[br]b. c. 1866 Drummartin, Victoria, Australiad. 21 May 1926 Australia[br]Australian inventor and manufacturer of harvesting and other agricultural equipment.[br]A farmer's son, at the age of 17 McKay developed modifications to the existing stripper harvester and created a machine that would not only strip the seed from standing corn, but was able to produce a threshed, winnowed and clean sample in one operation. The prototype was produced in 1884 and worked well on the two acres of wheat that had been set aside on the family farm. By arrangement with a Melbourne plough maker, five machines were made and sold for the 1885 season. In 1886 the McKay Harvester Company was formed, with offices at Ballarat, from which the machines, built by various companies, were sold. The business expanded quickly, selling sixty machines in 1888, and eventually rising to the production of nearly 2,000 harvesters in 1905. The name "Sunshine" was given to the harvester, and the "Sun" prefix was to appear on all other implements produced by the company as it diversified its production interests. In 1902 severe drought reduced machinery sales and left 2,000 harvesters unsold. McKay was forced to look to export markets to dispose of his surplus machines. By 1914 a total of 10,000 machines were being exported annually. During the First World War McKay was appointed to the Business Board of the Defence Department. Increases in the scale of production resulted in the company moving to Melbourne, where it was close to the port of entry of raw materials and was able to export the finished article more readily. In 1909 McKay produced one of the first gas-engined harvesters, but its cost prevented it from being more than an experimental prototype. By this time McKay was the largest agricultural machinery manufacturer in the Southern hemisphere, producing a wide range of implements, including binders. In 1916 McKay hired Headlie Taylor, who had developed a machine capable of harvesting fallen crops. The jointly developed machine was a major success, coming as it did in what would otherwise have been a disastrous Australian harvest. Further developments included the "Sun Auto-header" in 1923, the first of the harvesting machines to adopt the "T" configuration to be seen on modern harvesters. The Australian market was expanding fast and a keen rivalry developed between McKay and Massey Harris. Confronted by the tariff regulations with which the Australian Government had protected its indigenous machinery industry since 1906, Massey Harris sold all its Australian assets to the H.V. McKay company in 1930. Twenty-three years later Massey Ferguson acquired the old Sunshine works and was still operating from there in the 1990s.Despite a long-running history of wage disputes with his workforce, McKay established a retiring fund as well as a self-help fund for distressed cases. Before his death he created a charitable trust and requested that some funds should be made available for the "aerial experiments" which were to lead to the establishment of the Flying Doctor Service.[br]Principal Honours and DistinctionsCBE.Further ReadingGraeme Quick and Wesley Buchele, 1978, The Grain Harvesters, American Society of Agricultural Engineers (devotes a chapter to the unique development of harvesting machinery which took place in Australia).AP -
5 develop
1. I1) his character is developing его характер формируется; our friendship has developed наша дружба окрепла2) new facts (some additional details, certain circumstances, etc.) have developed обнаружились /выяснились/ новые факты и т. д.; а new feature of the case developed a) обнаружилась /возникла/ еще одна сторона дела; б) дело приняло новый оборот; а rash (new symptoms, a fever, etc.) developed появилась сыпь и т. д., an ulcer developed образовалась язва2. IIdevelop in some manner1) develop harmoniously (gradually, physically, morally. culturally,.etc.) гармонично и т. д. развиваться; the boy has developed intellectually мальчик интеллектуально развился; the plot (the story, the play. etc.) develops rapidly сюжет и т. д. развивается /развёртывается/ стремительно; develop in every way (a lot, by leaps and bounds, etc.) развиваться всеми способами или во всех отношениях и т. д.2) develop gradually (partially, etc.) проявляться постепенно и т. д.; this type of film develops quickly этот вид пленки проявляется быстро; these photographs haven't developed very well эти фотографии плохо вышли /проявились/3. IIIdevelop smth.1) develop the country's industry (a district, a coal area, etc.) развивать промышленность страны и т. д., develop the natural resources of a country разрабатывать природные богатства страны; we shall develop this mine будем разрабатывать /осваивать/ эту шахту: they are developing a new manufacturing process они разрабатывают новый технологический процесс: he developed his business он расширил свое дело2) develop different muscles (the strength of one's fingers. healthy bodies, one's memory, one's brain, the mind, etc.) укреплять /развивать, тренировать разные мышцы и т. д.3) develop exotic flowers (hot house tomatoes, subtropical fruit, etc.) выращивать экзотические цветы и т. д.; develop new forms of the plant выводить новые сорта растения; heat and moisture develop seed тепло и влага способствуют росту /развитию/ семян; different conditions have developed different forms of life разные условия привели к появлению разных форм жизни; this engine develops a lot of heat Этот мотор сильно нагревается4) develop new facts (new features, certain details, etc.) обнаруживать /вскрывать/ новые факты и т. д.; the inquiry developed unforeseen aspects of the case при расследовании обнаружились неожиданные стороны этого дела5) he developed symptoms of consumption (of a fever, of a cough. of a tumour, etc.) у него появились симптомы чахотки и т. д.', he seems to be developing an illness он. кажется, заболевает; the child developed whooping cough у ребенка начался коклюш6) develop a subject (the plot of a play, an argument, a plan, an idea. a line of thought, etc.) разрабатывать /развивать/ тему и т. д; you should develop this theme вам следует развить эту тему7) develop one's films (the plates, a photograph, etc.) проявлять [отснятую] пленку и т. д.4. IVdevelop smth. in some manner develop this idea (this subject, the theme, etc.) a little more fully развить /разработать/ эту мысль и т. д. полнее5. XI1) be developed in some manner be rather poorly developed быть плохо развитым, отставать в развитии; he is well developed mentally умственно он хорошо развит; be developed at /in/ some place in this school children's gifts are developed в этой школе обращают особое внимание на развитие природных талантов у детей2) be developed somewhere this plate may be developed at home эту пластинку можно проявлять в домашних условиях6. XVIdevelop from /out of/ smth. develop from a seed (from a simpler machine, from an acorn, etc.) развиваться из зерна и т. д., this town developed out of a fishing village этот город вырос из /на месте/ рыбацкого поселка; develop Into smth. develop into plants (into beautiful butterflies, etc.) превращаться в растения и т. д, their acquaintance has developed into friendship их знакомство перешло в дружбу; develop Into smb. the boy developed into a good man из мальчика вырос хороший человек; - in some place develop in the author's mind созревать /зреть/ в уме автора7. XXI11) develop smth. for smth. develop a gift (a taste, a habit, etc.) for smth. развивать талант и т. д. к чему-л.2) develop smth. in some time I shall develop the film in twenty minutes я проявлю эту пленку за двадцать минут -
6 sense
I 1. [sens]1) (faculty, ability) senso m.sense of smell — olfatto, odorato
to dull, sharpen the senses — offuscare, acuire i sensi
2) (feeling) senso m., sensazione f.3) (practical quality) buonsenso m.4) (reason)to make sense — [sentence, film, theory] avere (un) senso
5) (meaning) senso m., significato m. (anche ling.)2.in a o one o some sense... — in un certo senso
to bring sb. to his senses — riportare o ridurre qcn. alla ragione
to take leave of one's senses — perdere la ragione, uscire di senno
••II [sens]to knock o pound AE some sense into sb. riportare qcn. alla ragione, far rinsavire qcn.; to see sense intendere ragione; to talk sense — parlare in modo sensato
1) (be aware of) sentire, percepire, avvertire3) inform. rilevare [ location]* * *[sens] 1. noun1) (one of the five powers (hearing, taste, sight, smell, touch) by which a person or animal feels or notices.) senso2) (a feeling: He has an exaggerated sense of his own importance.) senso3) (an awareness of (something): a well-developed musical sense; She has no sense of humour.) senso4) (good judgement: You can rely on him - he has plenty of sense.) buonsenso5) (a meaning (of a word).) senso, significato6) (something which is meaningful: Can you make sense of her letter?) senso2. verb(to feel, become aware of, or realize: He sensed that she disapproved.) sentire- senselessly
- senselessness
- senses
- sixth sense* * *I 1. [sens]1) (faculty, ability) senso m.sense of smell — olfatto, odorato
to dull, sharpen the senses — offuscare, acuire i sensi
2) (feeling) senso m., sensazione f.3) (practical quality) buonsenso m.4) (reason)to make sense — [sentence, film, theory] avere (un) senso
5) (meaning) senso m., significato m. (anche ling.)2.in a o one o some sense... — in un certo senso
to bring sb. to his senses — riportare o ridurre qcn. alla ragione
to take leave of one's senses — perdere la ragione, uscire di senno
••II [sens]to knock o pound AE some sense into sb. riportare qcn. alla ragione, far rinsavire qcn.; to see sense intendere ragione; to talk sense — parlare in modo sensato
1) (be aware of) sentire, percepire, avvertire3) inform. rilevare [ location] -
7 sense
sens
1. noun1) (one of the five powers (hearing, taste, sight, smell, touch) by which a person or animal feels or notices.) sentido2) (a feeling: He has an exaggerated sense of his own importance.) sensación, sentido3) (an awareness of (something): a well-developed musical sense; She has no sense of humour.) sentido4) (good judgement: You can rely on him - he has plenty of sense.) sentido común, juicio, sensatez5) (a meaning (of a word).) significado6) (something which is meaningful: Can you make sense of her letter?) sentido
2. verb(to feel, become aware of, or realize: He sensed that she disapproved.) sentir, percibir- senselessly
- senselessness
- senses
- sixth sense
sense1 n1. sentidothe five senses are: hearing, sight, taste, touch and smell los cinco sentidos son: el oído, la vista, el gusto, el tacto y el olfato2. sentido común / juicio / sensatezdon't be stupid, use your common sense no seas estúpido, usa tu sentido comúnsense2 vb notar / sentir / darse cuentatr[sens]1 (faculty) sentido2 (feeling - of well-being, loss) sensación nombre femenino; (awareness, appreciation - of justice, duty) sentido3 (wisdom, judgement) sentido común, juicio, sensatez nombre femenino, tino4 (reason, purpose) sentido■ what's the sense in driving there? ¿qué sentido tiene conducir hasta allí?■ there's no sense in crying ¿de qué sirve llorar?1 (feel, perceive) sentir, percibir, presentir, intuir; (apprehend, detect) percibir, darse cuenta de2 (machine) detectar1 (normal state of mind) juicio m sing\SMALLIDIOMATIC EXPRESSION/SMALLin a sense hasta cierto punto, en cierto sentidoin no sense de ninguna manerato be out of one's senses no estar en sus cabalesto bring somebody to their senses hacer a alguien entrar en razónto come to one's senses recobrar el juicioto have a sense of occasion tener sentido de la ocasiónto make sense out of something entender algoto see sense entrar en razónto take leave of one's senses perder el juicioto talk sense hablar con juiciosense organ órgano del sentidohe sensed danger: se dio cuenta del peligrosense n1) meaning: sentido m, significado m2) : sentido mthe sense of smell: el sentido del olfato3)to make sense : tener sentidoadj.• sensitivo, -a adj.n.• juicio s.m.• mollera s.f.• opinión s.f.• sensación s.f.• sentido s.m.• testa s.f.v.• detectar (Teléfono) v.• percibir v.• sentir v.• sospechar v.
I sens1)a) c ( physical faculty) sentido mthe sense of hearing/smell/taste/touch — el (sentido del) oído/olfato/gusto/tacto
b) senses pl ( rational state)no one in his (right) senses would do something like that — una persona en su (sano) juicio or en sus cabales no haría una cosa así
to take leave of one's senses — perder* el juicio, volverse* loco
2)a) ( impression) (no pl) sensación fI felt a sense of belonging/betrayal — me sentí aceptadoaicionado
b) c u ( awareness) sentido msense of direction/rhythm — sentido de la orientación/del ritmo
sense of humor — sentido m del humor
3) ua) ( common sense) sentido m comúnshe had the (good) sense to leave her phone number — tuvo la sensatez or el tino de dejar su número de teléfono
I'm going to knock o beat some sense into him! — voy a hacerlo entrar en razón
b) (point, value) sentido m4) ca) ( meaning) sentido m, significado mthe different senses of the word — las distintas acepciones or los distintos significados de la palabra
he is a professional in the full sense (of the term) — es un profesional en toda la extensión de la palabra
b) (aspect, way)in a sense they're both correct — en cierto modo or sentido ambos tienen razón
it must in no sense be taken as the final offer — no debe de ningún modo or de ninguna manera interpretarse como la oferta final
a) ( be comprehensible) tener* sentidob) ( be sensible)to make sense of something — entender* algo
II
a) ( be aware of) sentir*, notar[sens]I sensed that they weren't very happy — sentí or intuí que no estaban muy contentos
1. N1) (bodily) sentido msense of hearing/smell/taste/touch — sentido m del oído/olfato/gusto/tacto
sense of sight — sentido m de la vista
•
sixth sense — sexto sentido2) (=feeling) sensación f•
have you no sense of shame? — ¿es que no tienes vergüenza?•
there is a sense of space in his paintings — sus cuadros transmiten una sensación de espacio3) (=good judgement) sentido m comúnshe has more sense than to go out on her own — tiene el suficiente sentido común como para no salir sola
I thought you would have had more sense — pensé que eras más sensato or tenías más sentido común
•
to make sb see sense — hacer que algn entre en razón•
to talk sense — hablar con sentido común, hablar con juicio4)• to make sense — (=be advisable) ser conveniente; (=be comprehensible, logical) tener sentido
it doesn't make sense or it makes no sense — no tiene sentido
•
to make sense of sth, I could make no sense of what he was saying — no entendía nada de lo que decía, no podía sacar nada en claro de lo que decía5) (=point, use) sentido mwhat's the sense of having another meeting? — ¿qué sentido tiene celebrar otra reunión?
6) senses (=sanity)•
I hope this warning will bring him to his senses — espero que esta advertencia le haga entrar en razón•
to come to one's senses — entrar en razón•
no-one in his right senses would do that — nadie (que esté) en su sano juicio haría eso•
have you taken leave of your senses? — ¿has perdido el juicio?it has several senses — tiene varias acepciones or varios significados
in what sense are you using the word? — ¿qué significado le das a la palabra?
•
in a sense — en cierto modo•
in every sense (of the word) — en todos los sentidos (de la palabra)•
in the full sense of that word — en toda la extensión de la palabra•
in no sense can it be said that... — de ninguna manera se puede decir que...•
in one sense — en cierto modo•
in the strict/ true sense of the word — en el sentido estricto/en el verdadero sentido de la palabra8) (=awareness) sentido m•
she has very good business sense — tiene muy buen ojo para los negocios•
they have an exaggerated sense of their own importance — se creen bastante más importantes de lo que son•
where's your sense of occasion? — tienes que estar a la altura de las circunstancias or la ocasión•
we must keep a sense of proportion about this — no debemos darle a esto más importancia de la que tiene•
one must have some sense of right and wrong — uno tiene que tener cierta noción de lo que está bien y lo que está mal9) (=opinion) opinión fwhat is your sense of the mood of the electorate? — ¿qué opinión le merece el clima que se respira entre el electorado?
2. VT1) (=suspect, intuit) presentirhe looked about him, sensing danger — miró a su alrededor, presintiendo peligro
2) (=be conscious of) percibir3) (=realize) darse cuenta de3.CPDsense organ N — órgano m sensorial
* * *
I [sens]1)a) c ( physical faculty) sentido mthe sense of hearing/smell/taste/touch — el (sentido del) oído/olfato/gusto/tacto
b) senses pl ( rational state)no one in his (right) senses would do something like that — una persona en su (sano) juicio or en sus cabales no haría una cosa así
to take leave of one's senses — perder* el juicio, volverse* loco
2)a) ( impression) (no pl) sensación fI felt a sense of belonging/betrayal — me sentí aceptado/traicionado
b) c u ( awareness) sentido msense of direction/rhythm — sentido de la orientación/del ritmo
sense of humor — sentido m del humor
3) ua) ( common sense) sentido m comúnshe had the (good) sense to leave her phone number — tuvo la sensatez or el tino de dejar su número de teléfono
I'm going to knock o beat some sense into him! — voy a hacerlo entrar en razón
b) (point, value) sentido m4) ca) ( meaning) sentido m, significado mthe different senses of the word — las distintas acepciones or los distintos significados de la palabra
he is a professional in the full sense (of the term) — es un profesional en toda la extensión de la palabra
b) (aspect, way)in a sense they're both correct — en cierto modo or sentido ambos tienen razón
it must in no sense be taken as the final offer — no debe de ningún modo or de ninguna manera interpretarse como la oferta final
a) ( be comprehensible) tener* sentidob) ( be sensible)to make sense of something — entender* algo
II
a) ( be aware of) sentir*, notarI sensed that they weren't very happy — sentí or intuí que no estaban muy contentos
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8 Meikle, Andrew
SUBJECT AREA: Agricultural and food technology[br]b. 1719 Scotlandd. 27 November 1811[br]Scottish millwright and inventor of the threshing machine.[br]The son of the millwright James Meikle, who is credited with the introduction of the winnowing machine into Britain, Andrew Meikle followed in his father's footsteps. His inventive inclinations were first turned to developing his father's idea, and together with his own son George he built and patented a double-fan winnowing machine.However, in the history of agricultural development Andrew Meikle is most famous for his invention of the threshing machine, patented in 1784. He had been presented with a model of a threshing mill designed by a Mr Ilderton of Northumberland, but after failing to make a full-scale machine work, he developed the concept further. He eventually built the first working threshing machine for a farmer called Stein at Kilbagio. The patent revolutionized farming practice because it displaced the back-breaking and soul-destroying labour of flailing the grain from the straw. The invention was of great value in Scotland and in northern England when the land was becoming underpopulated as a result of heavy industrialization, but it was bitterly opposed in the south of England until well into the nineteenth century. Although the introduction of the threshing machine led to the "Captain Swing" riots of the 1830s, in opposition to it, it shortly became universal.Meikle's provisional patent in 1785 was a natural progression of earlier attempts by other millwrights to produce such a machine. The published patent is based on power provided by a horse engine, but these threshing machines were often driven by water-wheels or even by windmills. The corn stalks were introduced into the machine where they were fed between cast-iron rollers moving quite fast against each other to beat the grain out of the ears. The power source, whether animal, water or wind, had to cause the rollers to rotate at high speed to knock the grain out of the ears. While Meikle's machine was at first designed as a fixed barn machine powered by a water-wheel or by a horse wheel, later threshing machines became mobile and were part of the rig of an agricultural contractor.In 1788 Meikle was awarded a patent for the invention of shuttered sails for windmills. This patent is part of the general description of the threshing machine, and whilst it was a practical application, it was superseded by the work of Thomas Cubitt.At the turn of the century Meikle became a manufacturer of threshing machines, building appliances that combined the threshing and winnowing principles as well as the reciprocating "straw walkers" found in subsequent threshing machines and in conventional combine harvesters to the present day. However, he made little financial gain from his invention, and a public subscription organized by the President of the Board of Agriculture, Sir John Sinclair, raised £1,500 to support him towards the end of his life.[br]Bibliography1831, Threshing Machines in The Dictionary of Mechanical Sciences, Arts and Manufactures, London: Jamieson, Alexander.7 March 1768, British patent no. 896, "Machine for dressing wheat, malt and other grain and for cleaning them from sand, dust and smut".9 April 1788, British patent no. 1,645, "Machine which may be worked by cattle, wind, water or other power for the purpose of separating corn from the straw".Further ReadingJ.E.Handley, 1953, Scottish Farming in the 18th Century, and 1963, The Agricultural Revolution in Scotland (both place Meikle and his invention within their context).G.Quick and W.Buchele, 1978, The Grain Harvesters, American Society of Agricultural Engineers (gives an account of the early development of harvesting and cereal treatment machinery).KM / AP -
9 Berliner, Emile
SUBJECT AREA: Recording[br]b. 20 May 1851 Hannover, Germanyd. 3 August 1929 Montreal, Canada[br]German (naturalized American) inventor, developer of the disc record and lateral mechanical replay.[br]After arriving in the USA in 1870 and becoming an American citizen, Berliner worked as a dry-goods clerk in Washington, DC, and for a period studied electricity at Cooper Union for the Advancement of Science and Art, New York. He invented an improved microphone and set up his own experimental laboratory in Washington, DC. He developed a microphone for telephone use and sold the rights to the Bell Telephone Company. Subsequently he was put in charge of their laboratory, remaining in that position for eight years. In 1881 Berliner, with his brothers Joseph and Jacob, founded the J.Berliner Telephonfabrik in Hanover, the first factory in Europe specializing in telephone equipment.Inspired by the development work performed by T.A. Edison and in the Volta Laboratory (see C.S. Tainter), he analysed the existing processes for recording and reproducing sound and in 1887 developed a process for transferring lateral undulations scratched in soot into an etched groove that would make a needle and diaphragm vibrate. Using what may be regarded as a combination of the Phonautograph of Léon Scott de Martinville and the photo-engraving suggested by Charles Cros, in May 1887 he thus demonstrated the practicability of the laterally recorded groove. He termed the apparatus "Gramophone". In November 1887 he applied the principle to a glass disc and obtained an inwardly spiralling, modulated groove in copper and zinc. In March 1888 he took the radical step of scratching the lateral vibrations directly onto a rotating zinc disc, the surface of which was protected, and the subsequent etching created the groove. Using well-known principles of printing-plate manufacture, he developed processes for duplication by making a negative mould from which positive copies could be pressed in a thermoplastic compound. Toy gramophones were manufactured in Germany from 1889 and from 1892–3 Berliner manufactured both records and gramophones in the USA. The gramophones were hand-cranked at first, but from 1896 were based on a new design by E.R. Johnson. In 1897–8 Berliner spread his activities to England and Germany, setting up a European pressing plant in the telephone factory in Hanover, and in 1899 a Canadian company was formed. Various court cases over patents removed Berliner from direct running of the reconstructed companies, but he retained a major economic interest in E.R. Johnson's Victor Talking Machine Company. In later years Berliner became interested in aeronautics, in particular the autogiro principle. Applied acoustics was a continued interest, and a tile for controlling the acoustics of large halls was successfully developed in the 1920s.[br]Bibliography16 May 1888, Journal of the Franklin Institute 125 (6) (Lecture of 16 May 1888) (Berliner's early appreciation of his own work).1914, Three Addresses, privately printed (a history of sound recording). US patent no. 372,786 (basic photo-engraving principle).US patent no. 382,790 (scratching and etching).US patent no. 534,543 (hand-cranked gramophone).Further ReadingR.Gelatt, 1977, The Fabulous Phonograph, London: Cassell (a well-researched history of reproducible sound which places Berliner's contribution in its correct perspective). J.R.Smart, 1985, "Emile Berliner and nineteenth-century disc recordings", in WonderfulInventions, ed. Iris Newson, Washington, DC: Library of Congress, pp. 346–59 (provides a reliable account).O.Read and W.L.Welch, 1959, From Tin Foil to Stereo, Indianapolis: Howard W.Sams, pp. 119–35 (provides a vivid account, albeit with less precision).GB-N -
10 Paul, Lewis
SUBJECT AREA: Textiles[br]d. April 1759 Brook Green, London, England[br]English inventor of hand carding machines and partner with Wyatt in early spinning machines.[br]Lewis Paul, apparently of French Huguenot extraction, was quite young when his father died. His father was Physician to Lord Shaftsbury, who acted as Lewis Paul's guardian. In 1728 Paul made a runaway match with a widow and apparently came into her property when she died a year later. He must have subsequently remarried. In 1732 he invented a pinking machine for making the edges of shrouds out of which he derived some profit.Why Paul went to Birmingham is unknown, but he helped finance some of Wyatt's earlier inventions. Judging by the later patents taken out by Paul, it is probable that he was the one interested in spinning, turning to Wyatt for help in the construction of his spinning machine because he had no mechanical skills. The two men may have been involved in this as early as 1733, although it is more likely that they began this work in 1735. Wyatt went to London to construct a model and in 1736 helped to apply for a patent, which was granted in 1738 in the name of Paul. The patent shows that Paul and Wyatt had a number of different ways of spinning in mind, but contains no drawings of the machines. In one part there is a description of sets of rollers to draw the cotton out more finely that could have been similar to those later used by Richard Arkwright. However, it would seem that Paul and Wyatt followed the other main method described, which might be called spindle drafting, where the fibres are drawn out between the nip of a pair of rollers and the tip of the spindle; this method is unsatisfactory for continuous spinning and results in an uneven yarn.The spinning venture was supported by Thomas Warren, a well-known Birmingham printer, Edward Cave of Gentleman's Magazine, Dr Robert James of fever-powder celebrity, Mrs Desmoulins, and others. Dr Samuel Johnson also took much interest. In 1741 a mill powered by two asses was equipped at the Upper Priory, Birmingham, with, machinery for spinning cotton being constructed by Wyatt. Licences for using the invention were sold to other people including Edward Cave, who established a mill at Northampton, so the enterprise seemed to have great promise. A spinning machine must be supplied with fibres suitably prepared, so carding machines had to be developed. Work was in hand on one in 1740 and in 1748 Paul took out another patent for two types of carding device, possibly prompted by the patent taken out by Daniel Bourn. Both of Paul's devices were worked by hand and the carded fibres were laid onto a strip of paper. The paper and fibres were then rolled up and placed in the spinning machine. In 1757 John Dyer wrote a poem entitled The Fleece, which describes a circular spinning machine of the type depicted in a patent taken out by Paul in 1758. Drawings in this patent show that this method of spinning was different from Arkwright's. Paul endeavoured to have the machine introduced into the Foundling Hospital, but his death in early 1759 stopped all further development. He was buried at Paddington on 30 April that year.[br]Bibliography1738, British patent no. 562 (spinning machine). 1748, British patent no. 636 (carding machine).1758, British patent no. 724 (circular spinning machine).Further ReadingG.J.French, 1859, The Life and Times of Samuel Crompton, London, App. This should be read in conjunction with R.L.Hills, 1970, Power in the Industrial Revolution, Manchester, which shows that the roller drafting system on Paul's later spinning machine worked on the wrong principles.A.P.Wadsworth and J.de L.Mann, 1931, The Cotton Trade and Industrial Lancashire, 1600–1780, Manchester (provides good coverage of the partnership of Paul and Wyatt and the early mills).E.Baines, 1835, History of the Cotton Manufacture in Great Britain, London (this publication must be mentioned, but is now out of date).A.Seymour-Jones, 1921, "The invention of roller drawing in cotton spinning", Transactions of the Newcomen Society 1 (a more modern account).RLH -
11 Pratt, Francis Ashbury
[br]b. 15 February 1827 Woodstock, Vermont, USAd. 10 February 1902 Hartford, Connecticut, USA[br]American mechanical engineer and machine-tool manufacturer.[br]Francis A.Pratt served an apprenticeship as a machinist with Warren Aldrich, and on completing it in 1848 he entered the Gloucester Machine Works as a journeyman machinist. From 1852 to 1854 he worked at the Colt Armory in Hartford, Connecticut, where he met his future partner, Amos Whitney. He then became Superintendent of the Phoenix Iron Works, also at Hartford and run by George S.Lincoln \& Company. While there he designed the well-known "Lincoln" miller, which was first produced in 1855. This was a development of the milling machine built by Robbins \& Lawrence and designed by F.W. Howe, and incorporated a screw drive for the table instead of the rack and pinion used in the earlier machine.Whitney also moved to the Phoenix Iron Works, and in 1860 the two men started in a small way doing machine work on their own account. In 1862 they took a third partner, Monroe Stannard, and enlarged their workshop. The business continued to expand, but Pratt and Whitney remained at the Phoenix Iron Works until 1864 and in the following year they built their first new factory. The Pratt \& Whitney Company was incorporated in 1869 with a capital of $350,000, F.A.Pratt being elected President. The firm specialized in making machine tools and tools particularly for the armament industry. In the 1870s Pratt made no less than ten trips to Europe gaining orders for equipping armouries in many different countries. Pratt \& Whitney was one of the leading firms developing the system of interchangeable manufacture which led to the need to establish national standards of measurement. The Rogers-Bond Comparator, developed with the backing of Pratt \& Whitney, played an important part in the establishment of these standards, which formed the basis of the gauges of many various types made by the firm. Pratt remained President of the company until 1898, after which he served as their Consulting Engineer for a short time before retiring from professional life. He was granted a number of patents relating to machine tools. He was a founder member of the American Society of Mechanical Engineers in 1880 and was elected a vice-president in 1881. He was an alderman of the city of Hartford.[br]Principal Honours and DistinctionsVice-President, American Society of Mechanical Engineers 1881.Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; reprinted 1926, New York, and 1987, Bradley, 111. (describes the origin and development of the Pratt \& Whitney Company).RTS -
12 Dyer, Joseph Chessborough
SUBJECT AREA: Textiles[br]b. 15 November 1780 Stonnington Point, Connecticut, USAd. 2 May 1871 Manchester, England[br]American inventor of a popular type of roving frame for cotton manufacture.[br]As a youth, Dyer constructed an unsinkable life-boat but did not immediately pursue his mechanical bent, for at 16 he entered the counting-house of a French refugee named Nancrède and succeeded to part of the business. He first went to England in 1801 and finally settled in 1811 when he married Ellen Jones (d. 1842) of Gower Street, London. Dyer was already linked with American inventors and brought to England Perkins's plan for steel engraving in 1809, shearing and nail-making machines in 1811, and also received plans and specifications for Fulton's steamboats. He seems to have acted as a sort of British patent agent for American inventors, and in 1811 took out a patent for carding engines and a card clothing machine. In 1813 there was a patent for spinning long-fibred substances such as hemp, flax or grasses, and in 1825 there was a further patent for card making machinery. Joshua Field, on his tour through Britain in 1821, saw a wire drawing machine and a leather splitting machine at Dyer's works as well as the card-making machines. At first Dyer lived in Camden Town, London, but he had a card clothing business in Birmingham. He moved to Manchester c.1816, where he developed an extensive engineering works under the name "Joseph C.Dyer, patent card manufacturers, 8 Stanley Street, Dale Street". In 1832 he founded another works at Gamaches, Somme, France, but this enterprise was closed in 1848 with heavy losses through the mismanagement of an agent. In 1825 Dyer improved on Danforth's roving frame and started to manufacture it. While it was still a comparatively crude machine when com-pared with later versions, it had the merit of turning out a large quantity of work and was very popular, realizing a large sum of money. He patented the machine that year and must have continued his interest in these machines as further patents followed in 1830 and 1835. In 1821 Dyer had been involved in the foundation of the Manchester Guardian (now The Guardian) and he was linked with the construction of the Liverpool \& Manchester Railway. He was not so successful with the ill-fated Bank of Manchester, of which he was a director and in which he lost £98,000. Dyer played an active role in the community and presented many papers to the Manchester Literary and Philosophical Society. He helped to establish the Royal Institution in London and the Mechanics Institution in Manchester. In 1830 he was a member of the delegation to Paris to take contributions from the town of Manchester for the relief of those wounded in the July revolution and to congratulate Louis-Philippe on his accession. He called for the reform of Parliament and helped to form the Anti-Corn Law League. He hated slavery and wrote several articles on the subject, both prior to and during the American Civil War.[br]Bibliography1811, British patent no. 3,498 (carding engines and card clothing machine). 1813, British patent no. 3,743 (spinning long-fibred substances).1825, British patent no. 5,309 (card making machinery).1825, British patent no. 5,217 (roving frame). 1830, British patent no. 5,909 (roving frame).1835, British patent no. 6,863 (roving frame).Further ReadingDictionary of National Biography.J.W.Hall, 1932–3, "Joshua Field's diary of a tour in 1821 through the Midlands", Transactions of the Newcomen Society 6.Evan Leigh, 1875, The Science of Modern Cotton Spinning, Vol. II, Manchester (provides an account of Dyer's roving frame).D.J.Jeremy, 1981, Transatlantic Industrial Revolution: The Diffusion of TextileTechnologies Between Britain and America, 1790–1830s, Oxford (describes Dyer's links with America).See also: Arnold, AzaRLHBiographical history of technology > Dyer, Joseph Chessborough
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13 Lister, Samuel Cunliffe, 1st Baron Masham
SUBJECT AREA: Textiles[br]b. 1 January 1815 Calverly Hall, Bradford, Englandd. 2 February 1906 Swinton Park, near Bradford, England[br]English inventor of successful wool-combing and waste-silk spinning machines.[br]Lister was descended from one of the old Yorkshire families, the Cunliffe Listers of Manningham, and was the fourth son of his father Ellis. After attending a school on Clapham Common, Lister would not go to university; his family hoped he would enter the Church, but instead he started work with the Liverpool merchants Sands, Turner \& Co., who frequently sent him to America. In 1837 his father built for him and his brother a worsted mill at Manningham, where Samuel invented a swivel shuttle and a machine for making fringes on shawls. It was here that he first became aware of the unhealthy occupation of combing wool by hand. Four years later, after seeing the machine that G.E. Donisthorpe was trying to work out, he turned his attention to mechanizing wool-combing. Lister took Donisthorpe into partnership after paying him £12,000 for his patent, and developed the Lister-Cartwright "square nip" comber. Until this time, combing machines were little different from Cartwright's original, but Lister was able to improve on this with continuous operation and by 1843 was combing the first fine botany wool that had ever been combed by machinery. In the following year he received an order for fifty machines to comb all qualities of wool. Further combing patents were taken out with Donisthorpe in 1849, 1850, 1851 and 1852, the last two being in Lister's name only. One of the important features of these patents was the provision of a gripping device or "nip" which held the wool fibres at one end while the rest of the tuft was being combed. Lister was soon running nine combing mills. In the 1850s Lister had become involved in disputes with others who held combing patents, such as his associate Isaac Holden and the Frenchman Josué Heilmann. Lister bought up the Heilmann machine patents and afterwards other types until he obtained a complete monopoly of combing machines before the patents expired. His invention stimulated demand for wool by cheapening the product and gave a vital boost to the Australian wool trade. By 1856 he was at the head of a wool-combing business such as had never been seen before, with mills at Manningham, Bradford, Halifax, Keighley and other places in the West Riding, as well as abroad.His inventive genius also extended to other fields. In 1848 he patented automatic compressed air brakes for railways, and in 1853 alone he took out twelve patents for various textile machines. He then tried to spin waste silk and made a second commercial career, turning what was called "chassum" and hitherto regarded as refuse into beautiful velvets, silks, plush and other fine materials. Waste silk consisted of cocoon remnants from the reeling process, damaged cocoons and fibres rejected from other processes. There was also wild silk obtained from uncultivated worms. This is what Lister saw in a London warehouse as a mass of knotty, dirty, impure stuff, full of bits of stick and dead mulberry leaves, which he bought for a halfpenny a pound. He spent ten years trying to solve the problems, but after a loss of £250,000 and desertion by his partner his machine caught on in 1865 and brought Lister another fortune. Having failed to comb this waste silk, Lister turned his attention to the idea of "dressing" it and separating the qualities automatically. He patented a machine in 1877 that gave a graduated combing. To weave his new silk, he imported from Spain to Bradford, together with its inventor Jose Reixach, a velvet loom that was still giving trouble. It wove two fabrics face to face, but the problem lay in separating the layers so that the pile remained regular in length. Eventually Lister was inspired by watching a scissors grinder in the street to use small emery wheels to sharpen the cutters that divided the layers of fabric. Lister took out several patents for this loom in his own name in 1868 and 1869, while in 1871 he took out one jointly with Reixach. It is said that he spent £29,000 over an eleven-year period on this loom, but this was more than recouped from the sale of reasonably priced high-quality velvets and plushes once success was achieved. Manningham mills were greatly enlarged to accommodate this new manufacture.In later years Lister had an annual profit from his mills of £250,000, much of which was presented to Bradford city in gifts such as Lister Park, the original home of the Listers. He was connected with the Bradford Chamber of Commerce for many years and held the position of President of the Fair Trade League for some time. In 1887 he became High Sheriff of Yorkshire, and in 1891 he was made 1st Baron Masham. He was also Deputy Lieutenant in North and West Riding.[br]Principal Honours and DistinctionsCreated 1st Baron Masham 1891.Bibliography1849, with G.E.Donisthorpe, British patent no. 12,712. 1850, with G.E. Donisthorpe, British patent no. 13,009. 1851, British patent no. 13,532.1852, British patent no. 14,135.1877, British patent no. 3,600 (combing machine). 1868, British patent no. 470.1868, British patent no. 2,386.1868, British patent no. 2,429.1868, British patent no. 3,669.1868, British patent no. 1,549.1871, with J.Reixach, British patent no. 1,117. 1905, Lord Masham's Inventions (autobiography).Further ReadingJ.Hogg (ed.), c. 1888, Fortunes Made in Business, London (biography).W.English, 1969, The Textile Industry, London; and C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (both cover the technical details of Lister's invention).RLHBiographical history of technology > Lister, Samuel Cunliffe, 1st Baron Masham
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14 Mergenthaler, Ottmar
SUBJECT AREA: Paper and printing[br]b. 11 May 1854 Hachtel, Germanyd. 28 October 1899 Baltimore, Maryland, USA[br]German/American inventor of the Linotype typesetting machine.[br]Mergenthaler came from a family of teachers, but following a mechanical bent he was apprenticed to a clockmaker. Having served his time, Mergenthaler emigrated to the USA in 1872 to avoid military service. He immediately secured work in Washington, DC, in the scientific instrument shop of August Hahl, the son of his former master. He steadily acquired a reputation for skill and ingenuity, and in 1876, when Hahl transferred his business to Baltimore, Mergenthaler went too. Soon after, they were commissioned to remedy the defects in a model of a writing machine devised by James O.Clephane of Washington. It produced print by typewriting, which was then multiplied by lithography. Mergenthaler soon corrected the defects and Clephane ordered a full-size version. This was completed in 1877 but did not work satisfactorily. Nevertheless, Mergenthaler was moved to engage in the long battle to mechanize the typesetting stage of the printing process. Clephane suggested substituting stereotyping for lithography in his device, but in spite of their keen efforts Mergenthaler and Hahl were again unsuccessful and they abandoned the project. In spare moments Mergenthaler continued his search for a typesetting machine. Late in 1883 it occurred to him to stamp matrices into type bars and to cast type metal into them in the same machine. From this idea, the Linotype machine developed and was completed by July 1884. It worked well and a patent was granted on 26 August that year, and Clephane and his associates set up the National Typographic Company of West Virginia to manufacture it. The New York Tribune ordered twelve Linotypes, and on 3 July 1886 the first of these set part of that day's issue. During the previous year the company had passed into the hands of a group of newspaper owners; increasing differences with the Board led to Mergenthaler's resignation in 1888, but he nevertheless continued to improve the machine, patenting over fifty modifications. The Linotype, together with the Monotype of Tolbert Lanston, rapidly supplanted earlier typesetting methods, and by the 1920s it reigned supreme, the former being used more for newspapers, the latter for book work.[br]Principal Honours and DistinctionsFranklin Institute John Scott Medal, Elliott Cresson Medal.Bibliography1898, Ottmar Mergenthaler and the Invention of Linotype, New York.Further ReadingJ.Moran, 1964, The Composition of Reading Matter, London.LRD -
15 Poulsen, Valdemar
[br]b. 23 November 1869 Copenhagen, Denmarkd. 23 July 1942 Gentofte, Denmark[br]Danish engineer who developed practical magnetic recording and the arc generator for continuous radio waves.[br]From an early age he was absorbed by phenomena of physics to the exclusion of all other subjects, including mathematics. When choosing his subjects for the final three years in Borgedydskolen in Christianshavn (Copenhagen) before university, he opted for languages and history. At the University of Copenhagen he embarked on the study of medicine in 1889, but broke it off and was apprenticed to the machine firm of A/S Frichs Eftf. in Aarhus. He was employed between 1893 and 1899 as a mechanic and assistant in the laboratory of the Copenhagen Telephone Company KTAS. Eventually he advanced to be Head of the line fault department. This suited his desire for experiment and measurement perfectly. After the invention of the telegraphone in 1898, he left the laboratory and with responsible business people he created Aktieselskabet Telegrafonen, Patent Poulsen in order to develop it further, together with Peder Oluf Pedersen (1874– 1941). Pedersen brought with him the mathematical background which eventually led to his professorship in electronic engineering in 1922.The telegraphone was the basis for multinational industrial endeavours after it was demonstrated at the 1900 World's Exhibition in Paris. It must be said that its strength was also its weakness, because the telegraphone was unique in bringing sound recording and reproduction to the telephone field, but the lack of electronic amplifiers delayed its use outside this and the dictation fields (where headphones could be used) until the 1920s. However, commercial interest was great enough to provoke a number of court cases concerning patent infringement, in which Poulsen frequently figured as a witness.In 1903–4 Poulsen and Pedersen developed the arc generator for continuous radio waves which was used worldwide for radio transmitters in competition with Marconi's spark-generating system. The inspiration for this work came from the research by William Duddell on the musical arc. Whereas Duddell had proposed the use of the oscillations generated in his electric arc for telegraphy in his 1901 UK patent, Poulsen contributed a chamber of hydrogen and a transverse magnetic field which increased the efficiency remarkably. He filed patent applications on these constructions from 1902 and the first publication in a scientific forum took place at the International Electrical Congress in St Louis, Missouri, in 1904.In order to use continuous waves efficiently (the high frequency constituted a carrier), Poulsen developed both a modulator for telegraphy and a detector for the carrier wave. The modulator was such that even the more primitive spark-communication receivers could be used. Later Poulsen and Pedersen developed frequency-shift keying.The Amalgamated Radio-Telegraph Company Ltd was launched in London in 1906, combining the developments of Poulsen and those of De Forest Wireless Telegraph Syndicate. Poulsen contributed his English and American patents. When this company was liquidated in 1908, its assets were taken over by Det Kontinentale Syndikat for Poulsen Radio Telegrafi, A/S in Copenhagen (liquidated 1930–1). Some of the patents had been sold to C.Lorenz AG in Berlin, which was very active.The arc transmitting system was in use worldwide from about 1910 to 1925, and the power increased from 12 kW to 1,000 kW. In 1921 an exceptional transmitter rated at 1,800 kW was erected on Java for communications with the Netherlands. More than one thousand installations had been in use worldwide. The competing systems were initially spark transmitters (Marconi) and later rotary converters ( Westinghouse). Similar power was available from valve transmitters only much later.From c. 1912 Poulsen did not contribute actively to further development. He led a life as a well-respected engineer and scientist and served on several committees. He had his private laboratory and made experiments in the composition of matter and certain resonance phenomena; however, nothing was published. It has recently been suggested that Poulsen could not have been unaware of Oberlin Smith's work and publication in 1888, but his extreme honesty in technical matters indicates that his development was indeed independent. In the case of the arc generator, Poulsen was always extremely frank about the inspiration he gained from earlier developers' work.[br]Bibliography1899, British patent no. 8,961 (the first British telegraphone patent). 1903, British patent no. 15,599 (the first British arc-genera tor patent).His scientific publications are few, but fundamental accounts of his contribution are: 1900, "Das Telegraphon", Ann. d. Physik 3:754–60; 1904, "System for producing continuous oscillations", Trans. Int. El. Congr. St. Louis, Vol. II, pp. 963–71.Further ReadingA.Larsen, 1950, Telegrafonen og den Traadløse, Ingeniørvidenskabelige Skrifter no. 2, Copenhagen (provides a very complete, although somewhat confusing, account of Poulsen's contributions; a list of his patents is given on pp. 285–93).F.K.Engel, 1990, Documents on the Invention of Magnetic Re cor ding in 1878, New York: Audio Engineering Society, reprint no. 2,914 (G2) (it is here that doubt is expressed about whether Poulsen's ideas were developed independently).GB-N -
16 Radcliffe, William
SUBJECT AREA: Textiles[br]b. 1761 Mellor, Cheshire, Englandd. 1842 Mellor, Cheshire, England[br]English inventor of the sizing machine.[br]Radcliffe was brought up in the textile industry and learned carding and spinning as a child. When he was old enough, he became a weaver. It was a time when there were not enough weavers to work up all the yarn being spun on the recently invented spinning machines, so some yarn was exported. Radcliffe regarded this as a sin; meetings were held to prohibit the export, and Radcliffe promised to use his best endeavours to discover means to work up the yarn in England. He owned a mill at Mellor and by 1801 was employing over 1,000 hand-loom weavers. He wanted to improve their efficiency so they could compete against power looms, which were beginning to be introduced at that time.His first step was to divide up as much as possible the different weaving processes, not unlike the plan adopted by Arkwright in spinning. In order to strengthen the warp yarns made of cotton and to reduce their tendency to fray during weaving, it was customary to apply an adhesive substance such as starch paste. This was brushed on as the warp was unwound from the back beam during weaving, so only short lengths could be treated before being dried. Instead of dressing the warp in the loom as was hitherto done, Radcliffe had it dressed in a separate machine, relieving the weaver of the trouble and saving the time wasted by the method previously used. Radcliffe employed a young man names Thomas Johnson, who proved to be a clever mechanic. Radcliffe patented his inventions in Johnson's name to avoid other people, especially foreigners, finding out his ideas. He took out his first patent, for a dressing machine, in March 1803 and a second the following year. The combined result of the two patents was the introduction of a beaming machine and a dressing machine which, in addition to applying the paste to the yarns and then drying them, wound them onto a beam ready for the loom. These machines enabled the weaver to work a loom with fewer stoppages; however, Radcliffe did not anticipate that his method of sizing would soon be applied to power looms as well and lead to the commercial success of powered weaving. Other manufacturers quickly adopted Radcliffe's system, and Radcliffe himself soon had to introduce power looms in his own business.Radcliffe improved the hand looms themselves when, with the help of Johnson, he devised a cloth taking-up motion that wound the woven cloth onto a roller automatically as the weaver operated the loom. Radcliffe and Johnson also developed the "dandy loom", which was a more compact form of hand loom and was also later adapted for weaving by power. Radcliffe was among the witnesses before the Parliamentary Committee which in 1808 awarded Edmund Cartwright a grant for his invention of the power loom. Later Radcliffe was unsuccessfully to petition Parliament for a similar reward for his contributions to the introduction of power weaving. His business affairs ultimately failed partly through his own obstinacy and his continued opposition to the export of cotton yarn. He lived to be 81 years old and was buried in Mellor churchyard.[br]Bibliography1811, Exportation of Cotton Yarn and Real Cause of the Distress that has Fallen upon the Cotton Trade for a Series of Years Past, Stockport.1828, Origin of the New System of Manufacture, Commonly Called "Power-Loom Weaving", Stockport (this should be read, even though it is mostly covers Radcliffe's political aims).Further ReadingA.Barlow, 1870, The History and Principles of Weaving by Hand and by Power, London (provides an outline of Radcliffe's life and work).W.English, 1969, The Textile Industry, London (a general background of his inventions). R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (a general background).D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830s, Oxford (discusses the spread of the sizing machine in America).RLH -
17 Smith, Oberlin
[br]b. 22 March 1840 Cincinnati, Ohio, USAd. 18 July 1926[br]American mechanical engineer, pioneer in experiments with magnetic recording.[br]Of English descent, Smith embarked on an education in mechanical engineering, graduating from West Jersey Academy, Bridgeton, New Jersey, in 1859. In 1863 he established a machine shop in Bridgeton, New Jersey, that became the Ferracute Machine Company in 1877, eventually specializing in the manufacture of presses for metalworking. He seems to have subscribed to design principles considered modern even in the 1990s, "always giving attention to the development of artistic form in combination with simplicity, and with massive strength where required" (bibliographic reference below). He was successful in his business, and developed and patented a large number of mechanical constructions.Inspired by the advent of the phonograph of Edison, in 1878 Smith obtained the tin-foil mechanical phonograph, analysed its shortcomings and performed some experiments in magnetic recording. He filed a caveat in the US Patent Office in order to be protected while he "reduced the invention to practice". However, he did not follow this trail. When there was renewed interest in practical sound recording and reproduction in 1888 (the constructions of Berliner and Bell \& Tainter), Smith published an account of his experiments in the journal Electrical World. In a corrective letter three weeks later it is clear that he was aware of the physical requirements for the interaction between magnetic coil and magnetic medium, but his publications also indicate that he did not as such obtain reproduction of recorded sound.Smith did not try to develop magnetic recording, but he felt it imperative that he be given credit for conceiving the idea of it. When accounts of Valdemar Poulsen's work were published in 1900, Smith attempted to prove some rights in the invention in the US Patent Office, but to no avail.He was a highly respected member of both his community and engineering societies, and in later life became interested in the anti-slavery cause that had also been close to the heart of his parents, as well as in the YMCA movement and in women's suffrage.[br]BibliographyApart from numerous technical papers, he wrote the book Press Working of Metals, 1896. His accounts on the magnetic recording experiments were "Some possible forms of phonograph", Electrical World (8 September 1888): 161 ff, and "Letter to the Editor", Electrical World (29 September 1888): 179.Further ReadingF.K.Engel, 1990, Documents on the Invention of Magnetic Recording in 1878, New York: Audio Engineering Society, Reprint no. 2,914 (G2) (a good overview of the material collected by the Oberlin Smith Society, Bridgeton, New Jersey, in particular as regards the recording experiments; it is here that it is doubted that Valdemar Poulsen developed his ideas independently).GB-N -
18 Appleby, John F.
SUBJECT AREA: Agricultural and food technology[br]b. 1840 New York, US Ad. ? USA[br]American inventor of the knotting mechanism used on early binders and still found on modern baling machines.[br]As a young man John Appleby worked as a labourer for a farmer near Whitewater in Wisconsin. He was 18 when the farmer bought a new reaping machine. Appleby believed that the concept had not been progressed far enough and that the machine should be able to bind sheaths as well as to cut the corn. It is claimed that while watching a dog playing with a skipping rope he noticed a particular knot created as the dog removed its head from the loop that had passed over it, and recognized the potential of the way in which this knot had been formed. From a piece of apple wood he carved a device that would produce the knot he had seen. A local school teacher backed Appleby's idea with a $50 loan, but the American Civil War and service in the Union Army prevented any further development until 1869 when he took out a patent on a wire-tying binder. A number of the devices were made for him by a company in Beloit. Trials of wire binders held in 1873 highlighted the danger of small pieces of wire caught up in the hay leading to livestock losses. Appleby looked again at the possibility of twine. In 1875 he successfully operated a machine and the following season four were in operation. A number of other developments, not least Behel's "bill hook" knotting device, were also to have an influence in the final development of Appleby's twine-tying binder. As so often happens, it was the vision of the entrepreneur which ultimately led to the success of Appleby's device. In 1877 Appleby persuaded William Deering to produce and market his binder, and 3,000 twine binders, together with the twine produced for them, were put on the market in 1880, with immediate success. Over the next dozen years all harvesting-machine manufacturers adopted the idea, under licence to Appleby.[br]Further ReadingG.Quick and W.Buchele, 1978, The Grain Harvesters, American Society of Agricultural Engineers (provides an account of the development of harvesting machinery and the various tying devices developed for them).1927, "Twine knotter history", Wisconsin Magazine of History (a more specific account).AP -
19 Arkwright, Sir Richard
SUBJECT AREA: Textiles[br]b. 23 December 1732 Preston, Englandd. 3 August 1792 Cromford, England[br]English inventor of a machine for spinning cotton.[br]Arkwright was the youngest of thirteen children and was apprenticed to a barber; when he was about 18, he followed this trade in Bol ton. In 1755 he married Patients Holt, who bore him a son before she died, and he remarried in 1761, to Margaret Biggins. He prospered until he took a public house as well as his barber shop and began to lose money. After this failure, he travelled around buying women's hair for wigs.In the late 1760s he began spinning experiments at Preston. It is not clear how much Arkwright copied earlier inventions or was helped by Thomas Highs and John Kay but in 1768 he left Preston for Nottingham, where, with John Smalley and David Thornley as partners, he took out his first patent. They set up a mill worked by a horse where machine-spun yarn was produced successfully. The essential part of this process lay in drawing out the cotton by rollers before it was twisted by a flyer and wound onto the bobbin. The partners' resources were not sufficient for developing their patent so Arkwright found new partners in Samuel Need and Jedediah Strutt, hosiers of Nottingham and Derby. Much experiment was necessary before they produced satisfactory yarn, and in 1771 a water-driven mill was built at Cromford, where the spinning process was perfected (hence the name "waterframe" was given to his spinning machine); some of this first yarn was used in the hosiery trade. Sales of all-cotton cloth were initially limited because of the high tax on calicoes, but the tax was lowered in 1774 by Act of Parliament, marking the beginning of the phenomenal growth of the cotton industry. In the evidence for this Act, Arkwright claimed that he had spent £12,000 on his machine. Once Arkwright had solved the problem of mechanical spinning, a bottleneck in the preliminary stages would have formed but for another patent taken out in 1775. This covered all preparatory processing, including some ideas not invented by Arkwright, with the result that it was disputed in 1783 and finally annulled in 1785. It contained the "crank and comb" for removing the cotton web off carding engines which was developed at Cromford and solved the difficulty in carding. By this patent, Arkwright had mechanized all the preparatory and spinning processes, and he began to establish water-powered cotton mills even as far away as Scotland. His success encouraged many others to copy him, so he had great difficulty in enforcing his patent Need died in 1781 and the partnership with Strutt ended soon after. Arkwright became very rich and financed other spinning ventures beyond his immediate control, such as that with Samuel Oldknow. It was estimated that 30,000 people were employed in 1785 in establishments using Arkwright's patents. In 1786 he received a knighthood for delivering an address of thanks when an attempt to assassinate George III failed, and the following year he became High Sheriff of Derbyshire. He purchased the manor of Cromford, where he died in 1792.[br]Principal Honours and DistinctionsKnighted 1786.Bibliography1769, British patent no. 931.1775, British patent no. 1,111.Further ReadingR.S.Fitton, 1989, The Arkwrights, Spinners of Fortune, Manchester (a thorough scholarly work which is likely to remain unchallenged for many years).R.L.Hills, 1973, Richard Arkwright and Cotton Spinning, London (written for use in schools and concentrates on Arkwright's technical achievements).R.S.Fitton and A.P.Wadsworth, 1958, The Strutts and the Arkwrights, Manchester (concentrates on the work of Arkwright and Strutt).A.P.Wadsworth and J.de L.Mann, 1931, The Cotton Trade and Industrial Lancashire, Manchester (covers the period leading up to the Industrial Revolution).F.Nasmith, 1932, "Richard Arkwright", Transactions of the Newcomen Society 13 (looks at the actual spinning invention).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (discusses the technical problems of Arkwright's invention).RLH -
20 Fairbairn, Sir Peter
SUBJECT AREA: Textiles[br]b. September 1799 Kelso, Roxburghshire, Scotlandd. 4 January 1861 Leeds, Yorkshire, England[br]British inventor of the revolving tube between drafting rollers to give false twist.[br]Born of Scottish parents, Fairbairn was apprenticed at the age of 14 to John Casson, a mill-wright and engineer at the Percy Main Colliery, Newcastle upon Tyne, and remained there until 1821 when he went to work for his brother William in Manchester. After going to various other places, including Messrs Rennie in London and on the European continent, he eventually moved in 1829 to Leeds where Marshall helped him set up the Wellington Foundry and so laid the foundations for the colossal establishment which was to employ over one thousand workers. To begin with he devoted his attention to improving wool-weaving machinery, substituting iron for wood in the construction of the textile machines. He also worked on machinery for flax, incorporating many of Philippe de Girard's ideas. He assisted Henry Houldsworth in the application of the differential to roving frames, and it was to these machines that he added his own inventions. The longer fibres of wool and flax need to have some form of support and control between the rollers when they are being drawn out, and inserting a little twist helps. However, if the roving is too tightly twisted before passing through the first pair of rollers, it cannot be drawn out, while if there is insufficient twist, the fibres do not receive enough support in the drafting zone. One solution is to twist the fibres together while they are actually in the drafting zone between the rollers. In 1834, Fairbairn patented an arrangement consisting of a revolving tube placed between the drawing rollers. The tube inserted a "middle" or "false" twist in the material. As stated in the specification, it was "a well-known contrivance… for twisting and untwisting any roving passing through it". It had been used earlier in 1822 by J. Goulding of the USA and a similar idea had been developed by C.Danforth in America and patented in Britain in 1825 by J.C. Dyer. Fairbairn's machine, however, was said to make a very superior article. He was also involved with waste-silk spinning and rope-yarn machinery.Fairbairn later began constructing machine tools, and at the beginning of the Crimean War was asked by the Government to make special tools for the manufacture of armaments. He supplied some of these, such as cannon rifling machines, to the arsenals at Woolwich and Enfield. He then made a considerable number of tools for the manufacture of the Armstrong gun. He was involved in the life of his adopted city and was elected to Leeds town council in 1832 for ten years. He was elected an alderman in 1854 and was Mayor of Leeds from 1857 to 1859, when he was knighted by Queen Victoria at the opening of the new town hall. He was twice married, first to Margaret Kennedy and then to Rachel Anne Brindling.[br]Principal Honours and DistinctionsKnighted 1858.Bibliography1834, British patent no. 6,741 (revolving tube between drafting rollers to give false twist).Further ReadingDictionary of National Biography.Obituary, 1861, Engineer 11.W.English, 1969, The Textile Industry, London (provides a brief account of Fairbairn's revolving tube).C.Singer (ed.), 1958, A History of Technology, Vols IV and V, Oxford: Clarendon Press (provides details of Fairbairn's silk-dressing machine and a picture of a large planing machine built by him).RLH
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