-
61 Adm
1) Компьютерная техника: add2) Авиация: Уведомление об агентской задолженности (Agency debit memo), air data module3) Военный термин: Arrow Diagram Method, Assistant Deputy Minister, advanced development model, air decoy missile, air defense missile, air defense mission, area defense missile, area denial munitions, artillery delivered mines, assessment development model, atomic demolition mine, atomic demolition munition4) Техника: acoustic digital memory, action description memorandum, armament development center, asynchronous disconnected mode, automatic distribution of microfiche, automatic drafting machine5) Автомобильный термин: автоматическое затемнение зеркала/зеркал заднего вида6) Грубое выражение: A Dumb Machine7) Испанский язык: Мексиканская зубоврачебная ассоциация ((сокр.) Asociación Dental Mexicana = Mexican Dental Association)8) Телекоммуникации: Add/Drop Multiplexer9) Сокращение: Acquisition Decision Memorandum, Adaptive Delta Modulation, Advanced Demonstration / Development Model, African Democratic Movement (Ciskei), Air Defence Missile, Asynchronous Data Modem, Atomic Demolition Munitions, Automatic Demolition Munition, Automatic Drive-train Management, Asian Dollar Market (сокр.) (рынок азиатских долларов, азиатский долларовый рынок)10) Физиология: Admit, Adult Onset Diabetes Mellitus11) Нефть: add and drop multiplexer12) Биотехнология: Antenna dye molecule13) Атомная энергия: ядерный фугас14) Фирменный знак: Archer Daniels Midland15) Деловая лексика: Additional Dealer Mark, Additional Dealer Markup16) Менеджмент: arrow diagramming method17) Образование: Average Daily Membership18) Полимеры: amalgam decomposing material19) Автоматика: adaptive data multiplexing, automated data management, automatic distribution microfiche20) Макаров: alternating directions method21) Расширение файла: AfterDark MultiModule screensaver22) Логистика: обеспечение23) NYSE. Archer Daniels Midland Company24) Программное обеспечение: Advanced Desktop Manager, Application Development Methodology -
62 adm
1) Компьютерная техника: add2) Авиация: Уведомление об агентской задолженности (Agency debit memo), air data module3) Военный термин: Arrow Diagram Method, Assistant Deputy Minister, advanced development model, air decoy missile, air defense missile, air defense mission, area defense missile, area denial munitions, artillery delivered mines, assessment development model, atomic demolition mine, atomic demolition munition4) Техника: acoustic digital memory, action description memorandum, armament development center, asynchronous disconnected mode, automatic distribution of microfiche, automatic drafting machine5) Автомобильный термин: автоматическое затемнение зеркала/зеркал заднего вида6) Грубое выражение: A Dumb Machine7) Испанский язык: Мексиканская зубоврачебная ассоциация ((сокр.) Asociación Dental Mexicana = Mexican Dental Association)8) Телекоммуникации: Add/Drop Multiplexer9) Сокращение: Acquisition Decision Memorandum, Adaptive Delta Modulation, Advanced Demonstration / Development Model, African Democratic Movement (Ciskei), Air Defence Missile, Asynchronous Data Modem, Atomic Demolition Munitions, Automatic Demolition Munition, Automatic Drive-train Management, Asian Dollar Market (сокр.) (рынок азиатских долларов, азиатский долларовый рынок)10) Физиология: Admit, Adult Onset Diabetes Mellitus11) Нефть: add and drop multiplexer12) Биотехнология: Antenna dye molecule13) Атомная энергия: ядерный фугас14) Фирменный знак: Archer Daniels Midland15) Деловая лексика: Additional Dealer Mark, Additional Dealer Markup16) Менеджмент: arrow diagramming method17) Образование: Average Daily Membership18) Полимеры: amalgam decomposing material19) Автоматика: adaptive data multiplexing, automated data management, automatic distribution microfiche20) Макаров: alternating directions method21) Расширение файла: AfterDark MultiModule screensaver22) Логистика: обеспечение23) NYSE. Archer Daniels Midland Company24) Программное обеспечение: Advanced Desktop Manager, Application Development Methodology -
63 system
1) система || системный3) вчт операционная система; программа-супервизор5) вчт большая программа6) метод; способ; алгоритм•system halted — "система остановлена" ( экранное сообщение об остановке компьютера при наличии серьёзной ошибки)
- CPsystem- H-system- h-system- hydrogen-air/lead battery hybrid system- Ksystem- Lsystem- L*a*b* system- master/slave computer system- p-system- y-system- Δ-system -
64 system
1) система2) установка; устройство•- 2D design system
- 2-D draughting system
- 2D milling CAM system
- 3 nonsimultaneous axes control system
- 3D CAD system
- 3D design system
- 3D milling CAM system
- 3-D surface-modeling system
- 3-D system
- abrasive waterjet cutting system
- absolute control system
- absolute dimension measuring system
- accident-protection system
- accountancy system
- accounting data system
- ACO system
- acoustic feedback control system
- acquisition system
- active enclosure system
- adaptable system
- adaptive CNC system
- adaptive control constraint system
- adaptive control system
- adaptive pulsing system
- adaptive robot system
- add-on NC programming system
- administrative information data system
- administrative information system
- ADR system
- advanced command data system
- advanced data analysis system
- advanced data display system
- advanced display system
- advanced integrated data system
- advanced interactive debugging system
- advanced management information system
- advisory system
- AGV system
- air flotation system
- air-bearing system
- air-cooling system
- air-delivery system
- air-gaging system
- airlock system
- air-oil mist lubrication system
- air-plasma arc-profiling system
- air-purge system
- alarm system
- all-enveloping guard system
- analog computing system
- analog recording system
- angstrom-positioning system
- antideflection system
- antilock brake system
- antisag system
- application-specific system
- APT generating expert system
- Archimedes system
- array system
- AS/RS system
- assembly management system
- assembly system
- attitude display system
- autolube system
- automated communications and messages processing system
- automated design and optimization of control system
- automated design system
- automated digital design system
- automated industrial management system
- automated information data system
- automated information dissemination system
- automated information retrieval system
- automated inventory distribution system
- automated machining system
- automated management information system
- automated management system
- automated measuring system
- automated parts input-output system
- automated reliability and maintenance management system
- automated storage control system
- automatic alignment-and-centering system
- automatic call distribution system
- automatic CAM system
- automatic chuck-changing system
- automatic data acquisition system
- automatic data distribution system
- automatic data system
- automatic diagnostic-and-recovery system
- automatic display plotting system
- automatic distributive numerical control system
- automatic fixturing system
- automatic gaging-and-compensating system
- automatic measurement-and-compensation system
- automatic message accounting system
- automatic message distribution system
- automatic pallet storage/retrieval system
- automatic program transfer system
- automatic record evaluation system
- automatic telemetry system
- automatic test analysis system
- automatic test system
- automatic testing, evaluating and reporting system
- automatic tool cassette changer system
- automatic tool retraction system
- automatic tool retraction/correction/reentry system
- automatic tool wear/tool broken sensing system
- automatically taught system
- automation system
- autonomous system
- autopatch system
- AWS system
- axis drive system
- axis motor system
- axis-stopping system
- backlash-free friction system
- back-to-back system
- balance system
- balanced system of forces
- balanced system
- bar feed system
- bar pulling system
- bar pusher system
- barring coding system
- base coordinate system
- base data system
- base file system
- base operating information system
- basic disk operating system
- basic hole system
- basic input/output system
- basic NC system
- basic programming system
- basic shaft system
- batching system
- batch-machining system
- battery system
- BCC management information system
- beam delivery system
- belt turnover system
- belt twist system
- binary system
- binary vision system
- biped robotic system
- block-tool system
- block-type tool change system
- bonded stores system
- boring system
- bought-in control system
- brake system
- branch information system
- breakaway system
- breathing system
- broad system of ordering
- BTA deep-hole-drilling system
- BTA-style deep-hole-drilling system
- bug-free system
- building block system
- bulk system
- business information system
- buy-and-plug-in system
- C/C system
- cable and hose carrying system
- CAD access system
- CAD system
- CAD/CAM system
- CAD/CAM/CAE and product data management system
- CAD/CAM/CAE system
- CAD/CAPP/CAM system
- CADAR system
- CAD-integrating system
- CAD-only system
- CAE system
- CAE/CAD/CAM system
- CAG system
- CAM system
- cam-and-lever system
- capacitance-based measuring system
- CAPP system
- capture system
- carrierband system
- cart/pallet transfer system
- Cartesian coordinate system
- cassette jaw-change system
- cell control system
- cell management system
- cell-type system
- cellular manufacturing system
- central analog data distributing and controlling system
- central automatic message accounting system
- central storage system
- centralized control system
- centralized coolant and extractor system
- centralized swarf conveying system
- centralized swarf removal system
- chain conveyor system
- check system
- checking system
- checkout system
- chiller system
- chip conveyor system
- chip guard system
- chip-evacuation system
- chuck/chuck jaw changing system
- chucking system
- chuck-jaw system
- chuck-loading system
- CIM system
- circular monitoring system
- circular part-processing system
- circulating lubrication system
- circulating oil system
- circulation system
- clamping system
- closed cooling system
- closed loop control system
- closed loop machine control system
- closed loop size control system
- closed loop system
- closed-proprietary system
- CM system
- CNC hardware system
- CNC machine tool system
- CNC programming system
- CNC system
- CNC transfer system
- CNC-ACC system
- CNC-control system
- coherent system of units
- collecting system
- collet pad top jaw system
- combined cooling system
- combined production system
- command-line NC system
- commercial vision system
- communication system
- companion system
- comprehensive power measurement system
- computer analysis and design system
- computer automation real-time operating system
- computer data communication system
- computer NC system
- computer system
- computer vision system
- computer-aided design support system
- computer-aided dispatch system
- computer-aided gaging system
- computer-aided programming system
- computer-aided telemetry system
- computer-aided test system
- computer-assisted command system
- computer-assisted message processing system
- computer-assisted microfilm retrieval system
- computer-assisted operation sequence planning system
- computer-automated machine-tool system
- computer-automated test system
- computer-based management system
- computer-based message system
- computer-controlled materials-handling system
- computer-controlled system
- computer-coordinated measuring system
- computer-directed swing-arm tool-changing system
- computer-driven control system
- computer-hosted manufacturing system
- computer-integrated manufacturing system
- computer-integrated system
- computerized information retrieval system
- computerized machine control system
- computerized manufacturing system
- computerized numerical control system
- computerized production control system
- computerized shopfloor data collection system
- computer-oriented production management system
- computer-oriented system
- computing system
- concurrent force system
- conductor system
- conservative system
- constant delivery system
- constant volume system
- constant-contact scanning system
- constraint satisfaction system
- continuous feedback control system
- continuous flow system
- continuous-path CNC system
- continuous-path control system
- contouring control system
- contouring system
- controlled path system
- controlling system
- conventional ACC system
- conversational analysis and drafting system
- conveying system
- conveyor system
- conveyoring system
- conveyorized work-handling system
- coolant clarification system
- coolant laundering system
- coolant mist system
- coolant recirculating system
- coolant recovery system
- coolant recycling system
- coolant supply system
- coolant-circulating system
- coolant-thru-body system
- cooling system
- coordinate drive system
- coordinate system
- coprocessor board system
- copymill control system
- corporate information and office system
- coupling system
- CPS system
- CRT control system
- CRT system
- customer-oriented system
- customized FMS control system
- cut-piece transfer system
- cycloidal tooth system
- data base management system
- data communication system
- data control system
- data input management system
- data management system
- data origination system
- data processing system
- data retrieval system
- data transfer system
- datum system for geometrical tolerancing
- datum system
- DDM system
- decentralized DNC system
- decision enabling system
- decision support system
- dedicated production system
- deep-hole-drilling system
- defect-free machining system
- delivery system
- demand pull flexible system
- demand push flexible system
- departmental management system
- descaling system
- design coordinate system
- design support system
- design-automation system
- design-for-manufacturing system
- design-with-feature system
- desk-top publishing system
- deterministic system
- dexel-based system
- diagnostic communication control system
- diagnostic computer control system
- dialog system
- diamond-lapping system
- digital readout system
- digitizing system
- digitizing/data capture system
- dimensional verification system
- direct impingement starting system
- direct lubrication system
- direct NC system
- discrete-continuous system
- dispatcher system
- distributed computer system
- distributed mass-spring system
- distributed microprocessor system
- distributed processing system
- distributed quality system
- distributed system
- distributive numerical control system
- DNC flexible machining system
- DNC machine control system
- DNC machine tool control system
- DNC system
- DNC/FM system
- document processing system
- document retrieval system
- document search system
- domain-expert system
- Doppler system
- DOS CAM system
- double tube system
- dowel pin system
- DRO system
- drop-feed-lubrication system
- DTP system
- dual laser optical system
- dual laser referencing system
- dual system
- dual-beam LDDM system
- dual-pallet shuttle system
- dual-shaft electric propulsion system
- dynamic beam focusing laser system
- dynamic data system
- dynamic mapping system
- early warning system
- eddy current damper system
- edge-sensing system
- edge-type positioning system
- eight-station pallet system
- electrical contact tracing system
- electrofluidic control system
- emergency protection system
- enclosure system
- encoder checking system
- endpoint locating system
- energy-adaptive system
- energy-saving drive system
- engine starting system
- entry-level NC system
- environmental control system
- equivalent rigid link system
- equivalent systems of forces
- ESD system
- estimating system
- example-driven system
- expert control system
- expert process planning system
- expert system
- external box system
- extractor system
- fact retrieval system
- factory automation system
- fault detection system
- fault-signal system
- FBG system
- feasibility routing system
- feature-based CAM system
- feature-based system
- feed system
- feedback control system
- feedback gaging system
- feedback position control system
- feedback system
- feed-drive system
- feedforward compensatory control system
- feed-only AC system
- feed-overriding system
- FFS system
- file control system
- finite capacity scheduling system
- fixed coordinate system
- fixed-feature NC system
- fixed-rail system
- fixture design system
- fixture system
- fixturing system
- flanged pipe system
- flexible assembly system
- flexible automated manufacturing system
- flexible automation system
- flexible computer-controlled robotic system
- flexible fabricating system
- flexible fixturing system
- flexible handling system
- flexible laser optical system
- flexible laser system
- flexible lathe system
- flexible machine system
- flexible machining center system
- flexible machining system
- flexible manufacturing system
- flexible NC system
- flexible press system
- flexible tooling system
- flexible transfer system
- flexible turning system
- flood coolant system
- flow-line production system
- flow-type manufacturing system
- fluid management system
- fluid power system
- flush-type cooling system
- fly system
- FMS operating system
- FMS/CAD/CAM system
- FMS-type production system
- force measurement system
- force sensory system
- force system
- force-sensing system
- forecasting system
- four-station pallet system
- four-tier quality system
- FROG navigation system
- FROG system
- full-blown system
- fully specified system
- gage system
- gaging computer system
- gaging-and-compensating system
- gantry loading system
- gantry-based turning system
- gantry-style motion system
- gas-turbine starting system
- gating system
- gear roller system
- gear system
- gear testing system
- general information retrieval system
- generative planning system
- generic control system
- generic messaging system
- generic system
- glass fiber system
- glazing system
- goal-seeking system
- graphic numerical control system
- graphic processing system
- graphics system
- graphics-oriented system
- grating measuring system
- gravity oil system
- gray scale imaging system
- grinder vision system
- group control system
- guarding system
- guidance system
- guiding system
- handling system
- handwriting-input system
- hard-automated system
- hardware NC system
- hardware support system
- head change system
- head changer system
- head-changing flexible manufacturing system
- help system
- hierarchical coding system
- hierarchical control system
- hierarchical information control system
- high-noise-immunity system
- high-rise system
- high-speed positioning system
- high-speed-processor control system
- high-volume system
- Hirth gear-tooth system
- holding system
- holding tool system
- hole system
- holonomic system
- host computer-assisted programming system
- host distributive numerical control system
- hybrid computing system
- hydraulic oil system
- hydraulic system
- hydraulic-circuit system
- hypertext system
- ID system
- IDNC system
- illumination system
- image detection system
- image processing system
- imaging system
- IMC system
- immersion-washing system
- inconsistent system of equations
- incremental measuring system
- index system
- indirect lubrication system
- individual lubrication system
- inductive telemetry system
- inductively guided cart system
- industrial vision system
- in-feed system
- inference system
- in-floor chip-disposal system
- information infrastructure system
- information logical system
- information processing system
- information storage and retrieval system
- information system
- information-gathering system
- information-management system
- information-sharing system
- infrared imaging system
- infrared system
- in-house minicomputer system
- in-house system
- inlet control system
- in-process gaging system
- in-process sensing system
- in-process storage system
- insert-selection system
- instrumentation system
- insulating system
- integral movement monitoring system
- integrated CAD/CAPP/CAM system
- integrated CAM system
- integrated circuit numerical control system
- integrated computer system
- integrated information system
- integrated machine system
- integrated machining system
- integrated manufacturing and assembly system
- integrated manufacturing system
- integrated NC machine system
- integrated production system
- integrated sensor system
- intelligent control system
- interactive control system
- interactive graphics processing system
- interactive manufacturing control system
- interconnection system
- interdepartmental communication system
- interferometer measuring system
- interlocking system
- interrupt-driven system
- inventory-management system
- involute tooth system
- IR fault-signal system
- IR system
- ISO system of limits and tolerances
- isolated word recognition system
- jig boring measuring system
- job shop-type flexible system
- joint-actuation system
- just-in-time production system
- kanban pull system
- kinetic control system
- kitting system
- knowledge base management system
- knowledge system
- knowledge-based information system
- knowledge-based system
- krypton laser system
- labeling system
- labor-intensive system
- language-based NC system
- laser beam orientation system
- laser beam positioning system
- laser calibration system
- laser combination energy system
- laser digitizing system
- laser driving system
- laser full automated system
- laser inspection system
- laser interferometer measuring system
- laser machining system
- laser metalworking system
- laser micrometer system
- laser monitoring system
- laser mount system
- laser optical transformation system
- laser pulse power system
- laser pump system
- laser referencing system
- laser thread measurement system
- laser transducer system
- laser-cutting system
- laser-gaging system
- layered control system
- LDDM system
- lead screw drive system
- learning system
- library reference system
- library system
- light guide system
- light recognition system
- line motion control system
- line motion system
- line path system
- linear index system
- linear system of constant coefficients
- linear time invariant system
- linear time-varying system
- linear-encoder-equipped system
- LMFC system
- load/unload system
- loading robot system
- load-monitoring system
- local communications system
- logistics system
- look-up table system
- low-loss optical system
- low-volume lubricant delivery system
- lube system
- lubrication system with continuous delivery
- lubrication system with cyclic delivery
- lubrication system with performance control
- lubrication system without performance control
- lubrication system
- M system
- machine control system
- machine coordinate system
- machine health-monitoring system
- machine management system
- machine surveillance system
- machine tool capability-conditioning system
- machine tool system
- machine vision system
- machine/control system
- machine/tool/workpiece system
- machine-flexible system
- machine-zero reference system
- machining-cell system
- magnetic control system
- magnetic shaft suspension system
- main control system
- maintenance tracking system
- make-up system
- management control system
- management information system
- management system
- management-and-manufacturing system
- managerial reporting system
- man-computer system
- man-machine system
- man-plus-machine system
- manual data input system
- manual programming system
- manufacturing execution system
- manufacturing optimization system
- manufacturing software system
- manufacturing system
- many-degrees-of-freedom system
- many-variable system
- mass-elastic system
- master manufacturing control system
- master-slave control system
- material flow system
- material movement system
- material storage system
- materials-handling control system
- materials-handling system
- matrix array system
- matrix-type system
- MDI contouring control system
- MDI control system
- MDI NC system
- mean line system
- measurement/inspection system
- measuring coordinate system
- measuring system
- measuring/compensation system
- mechanical interface coordinate system
- memory NC system
- memory system
- menu drive system
- menu system
- menu-driven programming system
- metalforming production system with robots
- metalworking laser system
- metamorphic system
- metareasoning system
- metering system
- metrology system
- MIC system
- micro CAD/CAM programming system
- microadjustment system
- microchip-managed control system
- microdispensing system
- microintegrated system
- microload system
- micropackaged distributed system
- microprocessor based system
- microprocessor CNC system
- microprocessor system
- microprocessor-development system
- microstep control system
- microwave drill detection system
- milling CAM system
- milling system
- minicomputer-based numerical control system
- minicomputer-based system
- minicomputer-based test system
- miniload automated storage and retrieval system
- miniload system
- minimal constraint system
- minimum phase shift system
- mist-cooling system
- mixed forging-machining system
- mobility system
- model reference adaptive system
- moderately sized manufacturing system
- modular clamping system
- modular component tooling system
- modular fixture system
- modular holding system
- modular system
- modular tooling system
- modular work holding system
- monitoring system
- monorail material handling system
- motor position sensing system
- mounting system
- MPM system
- MRC system
- MRP system
- MS-DOS system
- multiaxis laser system
- multimachine system
- multimedia system
- multinetwork system
- multipallet system
- multiple computer system
- multiple laser technology system
- multiple pallet changer system
- multiple pallet handling system
- multiple parts feeding system
- multiple sensory system
- multiple spindle head handling-and-changing system
- multiple system of indexing
- multiple-gun spraying system
- multipoint lubrication system
- multipoint network control system
- multiprocessing system
- multiprocessor NC system
- multiprocessor system
- multiproduct manufacturing system
- multiprofile tool system
- multiprogramming system
- multirobot system
- multisensor system
- multiserver queueing system
- multistage system
- multitasking control system
- multiterminal system
- multiuser system
- multivendor information system
- multiwindowing software system
- Nagare system
- narrowly defined expert system
- national information system
- navigation system
- NC contouring system
- NC machine system
- NC part-programming system
- NC system
- NC tooling system
- NC/TP system
- nesting system
- network computer system
- network switching system
- network system
- noise diagnostic system
- noncircular copy-turning system
- noncompensated system
- noncontact laser marking system
- noncontact microwave system
- nonexpert system
- non-NC system
- numerical computer control system
- numerical contour control system
- numerical control system
- numerically controlled tool point system
- object-oriented system
- office system
- office-based programming system
- off-line adviser-type expert system
- off-line programming system
- off-line system
- off-the-shelf system
- oil mist system
- oil scavenge system
- oil system
- oil wash system
- oil-recirculating system
- oligarchical manufacturing system
- OLP system
- one man/one machine system
- one man-one operation-one job system
- one-machine flexible system
- one-piece tape spar-measuring system
- one-shot lubrication system
- on-line information system
- on-line process system
- on-line retrieval system
- on-line system
- on-line tool control system
- on-machine gaging system
- on-machine probing system
- on-off control system
- open architecture system
- open cooling system
- open system
- open-front system
- open-loop control system
- operating system
- operational system
- operator guidance system
- operator-controlled NC system
- optical detection system
- optical laser ranging system
- optical MAP system
- optical measurement/inspection system
- optical recognition system
- optical system for laser processing
- optical tracer backup system
- optical transmission system
- opti-feed system
- optimal-position control system
- order-driven system
- order-entry system
- order-picking system
- oscillating system
- oscillatory system
- out-feed system
- output collecting system
- overall system
- p.-t.-p. NC system
- package confinement system
- paging system
- pallet conveyor system
- pallet gripper system
- pallet ID system
- pallet storage system
- pallet storage/changer system
- pallet/platen transfer system
- pallet/robot flexible-machining system
- pallet-based materials handling system
- pallet-based system
- pallet-changer system
- pallet-coding system
- pallet-handling system
- palletized tool magazine system
- pallet-loading system
- pallet-moving system
- pallet-shuttle change system
- pallet-transfer system
- pallet-transport system
- paperless NC system
- parallel force system
- parallel lubrication system
- parametric CNC system
- part flow system
- part handling-and-storage system
- part program-editing system
- part queue system
- part-conveying system
- partial laser system
- part-programming system
- part-retrieval system
- passively mode-locked laser system
- path control system of a machine
- path control system
- pattern recognition system
- pattern tracing system
- pattern-directed system
- PC system
- PC-based CAD system
- PC-based vision system
- pendant-mounted CNC system
- perceptual system
- permanent electro system
- personal computer-based robotic vision system
- phase switching control system
- photogrammetric vision system
- photooptic tracing system
- photooptical tracing system
- piece rate system
- plane system of forces
- planner-oriented system
- plant-integration system
- platen system
- platform-independent CAM system
- playback system
- plugboard control system
- plugboard programming system
- point-to-point system
- popular laser system
- position control system
- positioning control system
- postprocess inspection system
- postprocess system
- postprocess-feedback gaging system
- potentiometer-setting system
- power generating system
- power system
- powered clamping system
- powered track system
- powerful robot system
- precision positioning system
- predictive machinability system
- predictive maintenance system
- pre-emptive system
- pregaging system
- preload system
- preset tooling system
- presetting system
- prismatic flexible manufacturing system
- prismatic machining system
- probe communication system
- problem-oriented information system
- process planning system
- process-flexible system
- production control system
- production expert system
- production-monitoring system
- productions system
- product-testing system
- programmable automation system
- programmable control system
- programmable logic control system
- programmable power monitoring system
- programmed sequence control system
- programming system
- proof-of-concept system
- proprietary NC system
- propulsion system
- propulsive system
- protection system
- prototype system
- prototyping system
- pull system of production
- pull system
- punch tape NC system
- purpose-made materials feeding system
- push system
- qualitative system
- quality control system
- quality system
- quantity produced systems
- question-and-answer system
- question-answering system
- queuing system
- quick-change system
- quick-change workpiece-fixturing system
- quick-change-cutter system
- rack system
- rack-picking system
- rail-borne robotic handling system
- rail-guided transport system
- random mission system
- random mix system
- random order system
- ranging system
- readout system
- ready-to-go system
- real-time vision system
- recirculation system
- rectangular coordinate system
- rectangular triordinate system
- reeving system
- reference retrieval system
- reference system
- reflecting high-power beam optical system
- register system
- registration system
- relay ladder logic system
- reporting system
- reprographic system
- resolver system
- restraint system
- RETIC system
- retrieval system
- retrofit system
- return spring system
- RGV pallet delivery system
- rigid track workpiece transport system
- rigid transfer system
- robot control system
- robot gantry storage-and-retrieval system
- robot learning system
- robot parts-handling system
- robot system
- robot teaching system
- robot tool changing system
- robot-based turning system
- robotic system
- robotic vision system
- robotics CAD system
- robotized metalforming system
- robot-like inspection system
- robot-measuring system
- rod memory system
- roller system
- roll-generating system
- rotary transfer system
- rotary-type tool-mounting system
- rotational system
- routing-flexible system
- rule-based expert system
- running fail-safe system
- running system
- run-time system
- safety actuation system
- safety system
- scale back system
- seam tracking laser processing system
- seam-tracking system
- security system
- selective assembly system
- selective control system
- self-adapting system
- self-contained starting system
- self-contained system
- self-monitoring measuring system
- self-optimizing adaptive control system
- self-programming NC system
- self-teaching system
- self-test system
- sensing system
- sensor system
- sensor-based system
- sensory control system
- sensory feedback system
- sensory interactive system
- sensory-processing system
- sentence recognition system
- sequencing control system
- sequential control system
- series lubrication system
- service system
- servo control system
- servo drive system
- servo positioning system
- servo transducer system
- servo-controlled blade-feed-pressure system
- setting system
- SFP system
- shaft system
- shared tools system
- shopfloor communication message system
- shopfloor part-programming system
- shopfloor programming system
- shopfloor-programming control system
- short-closed oil system
- shuttle car system
- shuttle system
- shuttle-type container system
- side-loading pallet system
- sign system
- signature-analysis system
- silhouetting system
- single system
- single-board computer system
- single-cell system
- single-line lubrication system
- single-point lubrication system
- single-stage system
- single-tube system
- single-unit machining system
- single-variable system
- sinking system
- six-station pallet system
- size-monitoring system
- skidless system
- skid-type system
- small knowledge system
- small scale system
- small-batch manufacturing system
- sociotechnical system
- software-based system
- software-operating system
- solid model CAD system
- solid modeling system
- solids-based system
- sonic digitizing system
- space-monitoring sensor system
- special-purpose CNC system
- special-purpose material handling system
- speech-understanding system
- spindle airblast system
- spindle-probe system
- splash lubrication system
- split-type of tooling system
- spray lubrication system
- sprocket-chain system
- stabilization system
- stabilizing system
- stacking system
- stand-alone system
- standard control system
- standard unit system
- starting system
- statistical process control system
- steady-state system
- stepping motor drive system
- stocker system
- stocking system
- stop-bolt locking system
- storage system
- storage-and-retrieval system
- storage-retrieval system
- straight cut control system
- straight-line control system
- stress calculations infinite element system
- structurally stable system
- structurally unstable system
- stub-tooth system
- subloop system
- supervision system
- supervisory computer control system
- supervisory control system
- surface-measurement system
- surveillance system
- suspension system
- swarf conveyance system
- swarf-management system
- swarf-removal system
- switching system
- synthetic vision system
- system of dimensioning
- system of forces
- system of limits and fits
- system of quantities
- system of the machine retaining devices
- system of units
- tactile sensing system
- tailored NC system
- tailor-made system
- tape-oriented system
- target system
- teach system
- teachable-logic control system
- teaching system
- teach-mode programming system
- technology-intensive system
- telecommunication system
- telemetry gage system
- telemetry system
- teleoperated system
- telepresence system
- telerobotic system
- ten-station pallet system
- term system
- test system
- testing system
- text organizing system
- thermal control system
- thermal enclosure system
- thermal propulsion system
- thread measurement system
- thread measuring system
- three-dimensional CAM system
- three-dimensional coordinate system
- three-wire thread measuring system
- through feed system
- through-the-tool system
- time control system
- time cycle system
- time-shared system
- time-sharing NC programming system
- time-sharing system
- tool animation system
- tool breakage prevention system
- tool change system
- tool condition monitoring system
- tool coolant system
- tool deflection calibration system
- tool identification tag system
- tool life control system
- tool life management system
- tool magazine exchanger system
- tool management system
- tool position-compensating system
- tool shank cleaning system
- tool storage and transport system
- tool storage/management system
- tool-associated system
- tool-clamp system
- tool-holder-work system
- tool-ID system
- tooling AGV system
- tooling system
- tool-in-hand system
- tool-in-use system
- tool-machine system
- tool-monitoring system
- tool-mounting system
- tool-presetting system
- tool-probing system
- tool-to-turret connection system
- tool-transfer system
- torque-monitoring system
- total system
- total-loss lubrication system
- touch-probe digitizer system
- touch-probe digitizing system
- touch-probe system
- towline cart system
- towline conveyor system
- towline handling system
- towline material handling system
- towline transfer system
- tracer control system
- tracing system
- track system
- tracking/scheduling system
- track-monitoring system
- transfer system
- translating system
- transmission system
- transporter system
- traverse-metering system
- tray-type transfer system
- triangulation system
- tribomechanical system
- tri-level stocker system
- triordinate system
- trolley control system
- trouble-free control system
- T-slot system
- tuned system
- turning system
- turning-and-chucking system
- turnkey computer control system
- turnkey system
- turret probing system
- turret tooling system
- two-line lubrication system
- two-machine system
- two-pallet exchange system
- two-shift system
- two-tier inspection system
- unattended machining system
- unattended production system
- uncertain system
- unified system
- unit bore system
- unit system
- unit-build system
- unit-load automated storage and retrieval system
- unit-load system
- UNIX-based 32-bit computer system
- unmonitored control system
- unstable system
- user identification system
- user's CAD system
- V coding system
- vacuum system
- variable pallet system
- variable-coefficient system
- variable-gain ACC system
- variable-mission system
- versatile data acquisition system
- vertical carousel system
- vertical rotating warehouse system
- vibration system
- vibratory system
- video measuring system
- video-based measurement system
- viewing system
- virtual design system
- virtual storage system
- vision guidance system
- vision metrology system
- vision optical system
- vision sensor system
- vision system
- vision tool-presetting system
- vision-based inspection system
- vision-based system
- visual computing system
- visual inspection system
- VME-based system
- voice data entry system
- voice system
- voice-input system
- volume-flexible system
- volume-metric lubrication system
- voluntary standards system
- warehousing system
- warning protection system
- warning system
- wash system
- waste material treatment system
- watchdog system
- waterjet system
- way-lubrication system
- wedge-locked tool clamping system
- wheelhead-measuring system
- windowing system
- wire-cut system
- wire-frame CAD system
- wire-guided transport system
- wire-guided trolley routing system
- word recognition system
- work infeed system
- work transfer system
- work transport system
- workhandling system
- work-holding system
- workpiece-cleaning system
- workstation-oriented CNC system
- zero error position systemEnglish-Russian dictionary of mechanical engineering and automation > system
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65 Williamson, David Theodore Nelson
[br]b. 15 February 1923 Edinburgh, Scotlandd. 1992 Italy[br]Scottish engineer, inventor of the Williamson Amplifier and computer-controlled machine tools.[br]D.T.N.Williamson was educated at George Heriot's School, Edinburgh, and studied mechanical engineering at the University of Edinburgh and electrical engineering at Heriot-Watt College (now Heriot-Watt University), Edinburgh. He joined the MO Valve Company in London in 1943 and worked in his spare time on improving the sound reproduction for gramophones, and in 1946 invented the "Williamson Amplifier".That same year Williamson returned to Edinburgh as a development engineer with Ferranti Ltd, where he was employed in developing computer-controlled machining systems. In 1961 he was appointed Director of Research and Development at Molins Ltd, where he continued work on computer-controlled machine tools. He invented the Molins System 24, which employed a number of machine tools, all under computer control, and is generally acknowledged as a significant step in the development of manufacturing systems. In 1974 he joined Rank Xerox and became Director of Research before taking early retirement to live in Italy. Between 1954 and 1979 he served on numerous committees relating to computer-aided design, manufacturing technology and mechanical engineering in general.[br]Principal Honours and DistinctionsFRS 1968.BibliographyWilliamson was author of several papers and articles, and contributed to the ElectronicEngineers' Reference Book (1959), Progress in Automation (1960) and the Numerical Control Handbook (1968).RTSBiographical history of technology > Williamson, David Theodore Nelson
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66 time
время; период; продолжительность || устанавливать время; распределять время; рассчитывать по времени; согласовывать во времени; синхронизироватьtime in use — время использования; время работы (напр. инструмента)
time on machine — время пребывания ( обрабатываемой детали) на станке
- acceleration timeto cut time — сокращать время (напр. обработки)
- access time
- activation time
- active maintenance time
- active repair time
- activity time
- actual in-cut time
- addition time
- additional time
- adjustable laser ramp-up time
- administrative time
- aggregate travel time
- air-cutting time
- arcing time of pole
- assembly time
- assessed mean time to failure
- ATC time
- attended running time
- attenuation time
- auxiliary time
- available machine time
- available machining time
- available time
- average access time
- average time
- base cycle time
- batch change time
- batch lead time
- batch run time
- block execution time
- block processing time
- bounce time
- braking time to standstill
- braking time
- break time
- breakdown time
- bridging time
- build time
- build-up time
- cam idle time
- cell production time
- changeover cut-to-cut time
- changeover time
- characteristic time
- charge time
- chip-cutting time
- chip-making time
- chip-to-chip toolchange time
- clock cycle time
- closing time
- combined travel/load time
- commissioning time
- component cycle time
- component inspection time
- component time
- computed machine time
- computing time
- control flow time
- control time
- conversion time
- correction time
- corrective maintenance time
- c-percentile storageability time
- c-percentile time to failure
- cumulative cutting time
- cure time
- current fall time
- current rise time
- cut time
- cutting time
- cut-to-cut time
- cycle time
- dead cycle time
- dead time
- debugging time
- delay time
- delivery time
- depalletizing time
- derivative action time
- derricking time
- detection time
- direct manufacture time
- disengaging time
- division time
- door-to-door time
- double-stroke time
- down time
- dry-cycle time
- dwell time
- effective cutting time
- effective dead time
- empty running time
- end-of-job time
- equispaced times
- equivalent running time for wear
- eroding time
- erosion time
- estimation time
- execution time
- exposure time
- fall time
- fast response time
- finishing time
- first-off machining time
- fitting time
- fixture lead time
- floor-to-floor time
- flow time
- forward recovery time
- frame time
- full brazing time
- full operating time
- full soldering time
- gate controlled turn-off delay time
- gate controlled turn-off fall time
- gate controlled turn-off time
- grinding time
- gripper-changing time
- head-changing time
- hobbing time
- holding time
- idle time
- index time
- indexing time
- innovation time
- in-process time
- integral action time
- interarrival time
- interoperation time
- interpolation delay time
- jaw-adjusting time
- job completion time
- job finish time
- laser interaction time
- laser shutter opening time
- laser weld tempering time
- laser-beam dwell time
- laser-beam interaction time
- lead time
- learning time
- loading time
- machine down time
- machine repair time
- machine run time
- machine slack time
- machine wait time
- machine-setting time
- machine-setup time
- machining floor-to-floor time
- machining time
- machining-cycle time
- maintenance down time
- maintenance time
- make time
- manual machining time
- manufacturing cycle time
- manufacturing lead time
- material to end product lead time
- maximum resetting time
- mean time between failures
- mean time to failure
- mean time to repair
- measuring run time
- metal-to-metal time
- minimum accelerating time
- minimum braking time
- move time
- moving time
- multiplication time
- NC machining time
- NC program debug time
- no-failure operating time
- noncut time
- noncutting time
- nonmachining time
- nonproductive machine time
- nonrequired time
- numerical processing time
- observed mean time to failure
- off-machine process time
- off-shift machine down time
- off-shift slack time
- opening time
- operate time
- operating spindle time
- operating time
- operation cycle time
- operation time
- operator's attention time
- operator's reaction time
- operator's time
- optimized contact time
- out-of-cut machine time
- out-of-cut time
- output cycle time
- overall cycle time
- overall lead time
- pallet change time
- pallet processing time
- pallet shuttle time
- parasitic time
- part turnaround time
- partial operating time
- part-waiting time
- payback time
- periodic time
- pickup time
- piece sequence time
- piece time
- planned loading time
- planning lead time
- planning time
- predicted mean time to failure
- preparatory time
- preset operating time before corrective adjustment
- preset operating time
- preset time
- probing time
- process response time
- process time
- processing time
- product development lead time
- product flow time
- product lead time
- production lead time
- production time per piece
- production time per unit
- production time
- productive time
- profiling time
- programming time
- prorated time
- protective power time
- pulse decay time
- pulse response time
- pulse rise time
- pulse time
- queue time
- queueing time
- rapid response time
- reading time
- readout time
- real time
- rechucking time
- recognition time
- recovery time
- release time
- releasing time
- remaining life time
- repair/down cost time
- required time
- reset time
- residence time of materials
- response time
- restoration time
- return time
- reverse recovery current fall time
- reverse recovery current rise time
- reverse recovery time
- rise time
- robot down time
- roughing time
- run time
- running time
- running-in time
- safety lead time
- sampling time
- scan time
- schedule time
- scheduled time
- sensing time
- series machining time
- service time of the tool
- servicing time
- servo update time
- setter time
- setting time
- settling time
- setup time
- ship time
- slack time
- soaking time
- software execution time
- specified no-failure operating time
- specified operating time
- specified time
- spindle cutting time
- spindle run time
- stabilization time
- stand time
- standard handling time
- standard piece time
- starting time
- start-up time
- station time
- station-to-station time
- step response time
- stopping time
- storage cycle time
- storage time
- storageability time
- switching time
- switch-over time
- system time
- table-indexing time
- tape-preparation time
- tape-turnaround time
- target build time
- target time
- teach time
- throughput time
- time of starting
- tool change time
- tool exchange time
- tool index time
- tool life time
- tool-cutting time
- tool-in-cut time
- tooling-response time
- tool-setup time
- tool-to-tool changing time
- total access time
- total changeover time
- total equivalent running time for strength
- total equivalent running time for wear
- total manufacturing cycle time
- total running time
- total sequence time
- to-the-minute time
- transfer time
- transient time
- transit time
- transition time
- traveling time
- turnaround time
- turn-off time
- turn-on time
- undetected failure time
- unit cycle time
- unit production time
- unit time
- up time
- update time
- updating time
- vehicle time per hour
- vehicle-use time
- waiting time
- wakeup time
- warm-up time
- wasted time
- work-change time
- work-cycle time
- work-in-process time
- wrench time
- zero ATC timeEnglish-Russian dictionary of mechanical engineering and automation > time
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67 Fourdrinier, Henry
SUBJECT AREA: Paper and printing[br]b. 11 February 1766 London, Englandd. 3 September 1854 Mavesyn Ridware, near Rugeley, Staffordshire, England[br]English pioneer of the papermaking machine.[br]Fourdrinier's father was a paper manufacturer and stationer of London, from a family of French Protestant origin. Henry took up the same trade and, with his brother Sealy (d. 1847), devoted many years to developing the papermaking machine. Their first patent was taken out in 1801, but success was still far off. A machine for making paper had been invented a few years previously by Nicolas Robert at the Didot's mill at Essonnes, south of Paris. Robert quarrelled with the Didots, who then contacted their brother-in-law in England, John Gamble, in an attempt to raise capital for a larger machine. Gamble and the Fourdriniers called in the engineer Bryan Donkin, and between them they patented a much improved machine in 1807. In the new machine, the paper pulp flowed on to a moving continuous woven wire screen and was then squeezed between rollers to remove much of the water. The paper thus formed was transferred to a felt blanket and passed through a second press to remove more water, before being wound while still wet on to a drum. For the first time, a continuous sheet of paper could be made. Other inventors soon made further improvements: in 1817 John Dickinson obtained a patent for sizing baths to improve the surface of the paper; while in 1820 Thomas Crompton patented a steam-heated drum round which the paper was passed to speed up the drying process. The development cost of £60,000 bankrupted the brothers. Although Parliament extended the patent for fourteen years, and the machine was widely adopted, they never reaped much profit from it. Tsar Alexander of Russia became interested in the papermaking machine while on a visit to England in 1814 and promised Henry Fourdrinier £700 per year for ten years for super-intending the erection of two machines in Russia; Henry carried out the work, but he received no payment. At the age of 72 he travelled to St Petersburg to seek recompense from the Tsar's successor Nicholas I, but to no avail. Eventually, on a motion in the House of Commons, the British Government awarded Fourdrinier a payment of £7,000. The paper trade, sensing the inadequacy of this sum, augmented it with a further sum which they subscribed so that an annuity could be purchased for Henry, then the only surviving brother, and his two daughters, to enable them to live in modest comfort. From its invention in ancient China (see Cai Lun), its appearance in the Middle Ages in Europe and through the first three and a half centuries of printing, every sheet of paper had to made by hand. The daily output of a hand-made paper mill was only 60–100 lb (27–45 kg), whereas the new machine increased that tenfold. Even higher speeds were achieved, with corresponding reductions in cost; the old mills could not possibly have kept pace with the new mechanical printing presses. The Fourdrinier machine was thus an essential element in the technological developments that brought about the revolution in the production of reading matter of all kinds during the nineteenth century. The high-speed, giant paper-making machines of the late twentieth century work on the same principle as the Fourdrinier of 1807.[br]Further ReadingR.H.Clapperton, 1967, The Paper-making Machine, Oxford: Pergamon Press. D.Hunter, 1947, Papermaking. The History and Technique of an Ancient Craft, London.LRD -
68 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 -
69 MD
1) Общая лексика: измеренная глубина (measured depth)2) Компьютерная техника: Make Directory, Memory Disk, Meta Directory, Move Directory, Multiple Device, Multiplication Division, мини диск3) Медицина: Manic Depressant, Mental Disorder, Mind Destroying, врач, доктор, доктор медицины4) Военный термин: Maintenance And Diagnostics, Maintenance Diagnostic, Maniacal Dictator, Marine detachment, Marshalled Deployability, Material Development, Medical Department, Messy Desk, Meteorology Department, Minister of Defense, Ministry of Defense, Missile Defense, Mission Director, Mobilization Department, More Damage, More Death, Most Dangerous, Multi Directional, malfunction detection, management data, management directive, managing, managing director, map distance, materiel development, mean deviation, mechanically drawn, medical discharge, mess deck, message data, message-dropping, methyldichloroarsine, metropolitan district, milestone date, military district, mine depot, mine detection, mine disposal, miss distance, missile division, mission day, mission dependent, mobile depot, mobilization deployment, mobilization designation, modular design, monitor display, movement directive5) Техника: magnetic drum, mass defect, measured discard, meteorological device, microprocessor device, midcourse discrimination, modulation-demodulation, modulator, modulator-demodulator, motor-driven, multidimensional, multiplier/divider6) Сельское хозяйство: Marek's disease7) Шутливое выражение: Mac Daddy, Magic Damage, Magma Dragoon, Maniacal Doctor, Mean Dork, Medical Deity, Medical Deviate, Medical Diety, Medical Dissident, Medical Divinity, Medical Dunce, Mentally Defective, Merry Devil, Michael's Dream, Mirth Doctor, Miserable Doctor8) Математика: Mathematical Disposition, среднее отклонение (mean deviation), средняя разность (mean difference)9) Религия: Major Deity, Minor Deity, Most Divine10) Юридический термин: Majorly Demented, Malignant Denial, Mandatory Disclosure, Mentally Deranged, Morally Deficient, More Dope, Mucho Dough11) Экономика: Управляющий директор, директор-распорядитель (Managing Director)12) Бухгалтерия: Money Deficient13) Страхование: malicious damage14) Астрономия: Matter Dominated15) Ветеринария: Mad Dog16) Грубое выражение: Magneto Damn, Major Dumbass17) Металлургия: Manual Damper18) Музыка: Mad Drumming, Metered Diaphragm, Mountain Dulcimer, Musical Diversity19) Политика: Maybe Democrat, Moldova20) Телекоммуникации: Message Digest (IETF; MD2, MD4, MD5)21) Сокращение: Doctor of Medicine, Manufacturing Development, Maryland (US state), Materiels Directorate (US Army), Medical Doctor, Methyldichloroarsine (Chemical warfare blister agent), Moldavia, Months after Date, Musical Director, distance in miles, manual data, mentally deficient, milestone dates, motor direct22) Текстиль: Marked Down23) Университет: Mathematical Department, Music Director24) Физика: Magnetic Dipole, Most Dominant25) Физиология: Motion-defined, Muscular Dystrophy, maintenance dialysis26) Электроника: Molecular Dynamics27) Вычислительная техника: Make Directory (DOS, OS/2), Maryland (US state postal designation)28) Связь: Mediation Device (TMN)29) Транспорт: Morning Disaster, Motor Drive30) Пищевая промышленность: Meat Dog, Mogen David, Mostly Desserts, Mountain Dew31) СМИ: Madden Discussions, Microphone Doctor, Mini Disc, Monolog Doctor32) Бурение: drilled depth, глубина забоя, глубина по стволу, глубина по стволу скважины, забой, измеренное расстояние от устья скважины до некоторой точки в скважине33) Глоссарий компании Сахалин Энерджи: measured depth (of the well), medium pressure, глубина по инструменту (measured depth), измеренная глубина глубина по стволу (of the well; скважины, measured depth)34) Почта: Maryland (US postal abbreviation)35) Менеджмент: директор-распорядитель36) Образование: Mathematically Deficient, Medium To Difficult, Mentally Disabled37) Сетевые технологии: management domain, домен управления38) Полимеры: machine direction, maintenance division, maximum demand39) Программирование: Machine Dependent40) Автоматика: manufacturing director, mounting diameter, mounting distance, multiple drive41) Контроль качества: mean difference42) Сахалин Р: measured depth, measured depth of the well43) Макаров: молекулярная динамика44) Расширение файла: Monochrome Display, Mini Disk (Sony)45) Электротехника: mean downtime46) США: Maryland47) Фантастика Mad Doctor, Major Doona48) Имена и фамилии: Mickey Dolenz49) ООН: Media Division50) Hi-Fi. MiniDisc51) Должность: Mall Detective, Manly Dude, Marketing Director, Master Of Disguise, Medical Detective, Medicinae Doctor, Metaphysical Doctor, Multi Degree, Musical Doctor52) Чат: Mysterious Dude53) НАСА: Mini- Disk54) Программное обеспечение: Manufactured Diagnostics55) Единицы измерений: Man Days, Million Dollar56) Базы данных: Meta Data -
70 Md
1) Общая лексика: измеренная глубина (measured depth)2) Компьютерная техника: Make Directory, Memory Disk, Meta Directory, Move Directory, Multiple Device, Multiplication Division, мини диск3) Медицина: Manic Depressant, Mental Disorder, Mind Destroying, врач, доктор, доктор медицины4) Военный термин: Maintenance And Diagnostics, Maintenance Diagnostic, Maniacal Dictator, Marine detachment, Marshalled Deployability, Material Development, Medical Department, Messy Desk, Meteorology Department, Minister of Defense, Ministry of Defense, Missile Defense, Mission Director, Mobilization Department, More Damage, More Death, Most Dangerous, Multi Directional, malfunction detection, management data, management directive, managing, managing director, map distance, materiel development, mean deviation, mechanically drawn, medical discharge, mess deck, message data, message-dropping, methyldichloroarsine, metropolitan district, milestone date, military district, mine depot, mine detection, mine disposal, miss distance, missile division, mission day, mission dependent, mobile depot, mobilization deployment, mobilization designation, modular design, monitor display, movement directive5) Техника: magnetic drum, mass defect, measured discard, meteorological device, microprocessor device, midcourse discrimination, modulation-demodulation, modulator, modulator-demodulator, motor-driven, multidimensional, multiplier/divider6) Сельское хозяйство: Marek's disease7) Шутливое выражение: Mac Daddy, Magic Damage, Magma Dragoon, Maniacal Doctor, Mean Dork, Medical Deity, Medical Deviate, Medical Diety, Medical Dissident, Medical Divinity, Medical Dunce, Mentally Defective, Merry Devil, Michael's Dream, Mirth Doctor, Miserable Doctor8) Математика: Mathematical Disposition, среднее отклонение (mean deviation), средняя разность (mean difference)9) Религия: Major Deity, Minor Deity, Most Divine10) Юридический термин: Majorly Demented, Malignant Denial, Mandatory Disclosure, Mentally Deranged, Morally Deficient, More Dope, Mucho Dough11) Экономика: Управляющий директор, директор-распорядитель (Managing Director)12) Бухгалтерия: Money Deficient13) Страхование: malicious damage14) Астрономия: Matter Dominated15) Ветеринария: Mad Dog16) Грубое выражение: Magneto Damn, Major Dumbass17) Металлургия: Manual Damper18) Музыка: Mad Drumming, Metered Diaphragm, Mountain Dulcimer, Musical Diversity19) Политика: Maybe Democrat, Moldova20) Телекоммуникации: Message Digest (IETF; MD2, MD4, MD5)21) Сокращение: Doctor of Medicine, Manufacturing Development, Maryland (US state), Materiels Directorate (US Army), Medical Doctor, Methyldichloroarsine (Chemical warfare blister agent), Moldavia, Months after Date, Musical Director, distance in miles, manual data, mentally deficient, milestone dates, motor direct22) Текстиль: Marked Down23) Университет: Mathematical Department, Music Director24) Физика: Magnetic Dipole, Most Dominant25) Физиология: Motion-defined, Muscular Dystrophy, maintenance dialysis26) Электроника: Molecular Dynamics27) Вычислительная техника: Make Directory (DOS, OS/2), Maryland (US state postal designation)28) Связь: Mediation Device (TMN)29) Транспорт: Morning Disaster, Motor Drive30) Пищевая промышленность: Meat Dog, Mogen David, Mostly Desserts, Mountain Dew31) СМИ: Madden Discussions, Microphone Doctor, Mini Disc, Monolog Doctor32) Бурение: drilled depth, глубина забоя, глубина по стволу, глубина по стволу скважины, забой, измеренное расстояние от устья скважины до некоторой точки в скважине33) Глоссарий компании Сахалин Энерджи: measured depth (of the well), medium pressure, глубина по инструменту (measured depth), измеренная глубина глубина по стволу (of the well; скважины, measured depth)34) Почта: Maryland (US postal abbreviation)35) Менеджмент: директор-распорядитель36) Образование: Mathematically Deficient, Medium To Difficult, Mentally Disabled37) Сетевые технологии: management domain, домен управления38) Полимеры: machine direction, maintenance division, maximum demand39) Программирование: Machine Dependent40) Автоматика: manufacturing director, mounting diameter, mounting distance, multiple drive41) Контроль качества: mean difference42) Сахалин Р: measured depth, measured depth of the well43) Макаров: молекулярная динамика44) Расширение файла: Monochrome Display, Mini Disk (Sony)45) Электротехника: mean downtime46) США: Maryland47) Фантастика Mad Doctor, Major Doona48) Имена и фамилии: Mickey Dolenz49) ООН: Media Division50) Hi-Fi. MiniDisc51) Должность: Mall Detective, Manly Dude, Marketing Director, Master Of Disguise, Medical Detective, Medicinae Doctor, Metaphysical Doctor, Multi Degree, Musical Doctor52) Чат: Mysterious Dude53) НАСА: Mini- Disk54) Программное обеспечение: Manufactured Diagnostics55) Единицы измерений: Man Days, Million Dollar56) Базы данных: Meta Data -
71 mD
1) Общая лексика: измеренная глубина (measured depth)2) Компьютерная техника: Make Directory, Memory Disk, Meta Directory, Move Directory, Multiple Device, Multiplication Division, мини диск3) Медицина: Manic Depressant, Mental Disorder, Mind Destroying, врач, доктор, доктор медицины4) Военный термин: Maintenance And Diagnostics, Maintenance Diagnostic, Maniacal Dictator, Marine detachment, Marshalled Deployability, Material Development, Medical Department, Messy Desk, Meteorology Department, Minister of Defense, Ministry of Defense, Missile Defense, Mission Director, Mobilization Department, More Damage, More Death, Most Dangerous, Multi Directional, malfunction detection, management data, management directive, managing, managing director, map distance, materiel development, mean deviation, mechanically drawn, medical discharge, mess deck, message data, message-dropping, methyldichloroarsine, metropolitan district, milestone date, military district, mine depot, mine detection, mine disposal, miss distance, missile division, mission day, mission dependent, mobile depot, mobilization deployment, mobilization designation, modular design, monitor display, movement directive5) Техника: magnetic drum, mass defect, measured discard, meteorological device, microprocessor device, midcourse discrimination, modulation-demodulation, modulator, modulator-demodulator, motor-driven, multidimensional, multiplier/divider6) Сельское хозяйство: Marek's disease7) Шутливое выражение: Mac Daddy, Magic Damage, Magma Dragoon, Maniacal Doctor, Mean Dork, Medical Deity, Medical Deviate, Medical Diety, Medical Dissident, Medical Divinity, Medical Dunce, Mentally Defective, Merry Devil, Michael's Dream, Mirth Doctor, Miserable Doctor8) Математика: Mathematical Disposition, среднее отклонение (mean deviation), средняя разность (mean difference)9) Религия: Major Deity, Minor Deity, Most Divine10) Юридический термин: Majorly Demented, Malignant Denial, Mandatory Disclosure, Mentally Deranged, Morally Deficient, More Dope, Mucho Dough11) Экономика: Управляющий директор, директор-распорядитель (Managing Director)12) Бухгалтерия: Money Deficient13) Страхование: malicious damage14) Астрономия: Matter Dominated15) Ветеринария: Mad Dog16) Грубое выражение: Magneto Damn, Major Dumbass17) Металлургия: Manual Damper18) Музыка: Mad Drumming, Metered Diaphragm, Mountain Dulcimer, Musical Diversity19) Политика: Maybe Democrat, Moldova20) Телекоммуникации: Message Digest (IETF; MD2, MD4, MD5)21) Сокращение: Doctor of Medicine, Manufacturing Development, Maryland (US state), Materiels Directorate (US Army), Medical Doctor, Methyldichloroarsine (Chemical warfare blister agent), Moldavia, Months after Date, Musical Director, distance in miles, manual data, mentally deficient, milestone dates, motor direct22) Текстиль: Marked Down23) Университет: Mathematical Department, Music Director24) Физика: Magnetic Dipole, Most Dominant25) Физиология: Motion-defined, Muscular Dystrophy, maintenance dialysis26) Электроника: Molecular Dynamics27) Вычислительная техника: Make Directory (DOS, OS/2), Maryland (US state postal designation)28) Связь: Mediation Device (TMN)29) Транспорт: Morning Disaster, Motor Drive30) Пищевая промышленность: Meat Dog, Mogen David, Mostly Desserts, Mountain Dew31) СМИ: Madden Discussions, Microphone Doctor, Mini Disc, Monolog Doctor32) Бурение: drilled depth, глубина забоя, глубина по стволу, глубина по стволу скважины, забой, измеренное расстояние от устья скважины до некоторой точки в скважине33) Глоссарий компании Сахалин Энерджи: measured depth (of the well), medium pressure, глубина по инструменту (measured depth), измеренная глубина глубина по стволу (of the well; скважины, measured depth)34) Почта: Maryland (US postal abbreviation)35) Менеджмент: директор-распорядитель36) Образование: Mathematically Deficient, Medium To Difficult, Mentally Disabled37) Сетевые технологии: management domain, домен управления38) Полимеры: machine direction, maintenance division, maximum demand39) Программирование: Machine Dependent40) Автоматика: manufacturing director, mounting diameter, mounting distance, multiple drive41) Контроль качества: mean difference42) Сахалин Р: measured depth, measured depth of the well43) Макаров: молекулярная динамика44) Расширение файла: Monochrome Display, Mini Disk (Sony)45) Электротехника: mean downtime46) США: Maryland47) Фантастика Mad Doctor, Major Doona48) Имена и фамилии: Mickey Dolenz49) ООН: Media Division50) Hi-Fi. MiniDisc51) Должность: Mall Detective, Manly Dude, Marketing Director, Master Of Disguise, Medical Detective, Medicinae Doctor, Metaphysical Doctor, Multi Degree, Musical Doctor52) Чат: Mysterious Dude53) НАСА: Mini- Disk54) Программное обеспечение: Manufactured Diagnostics55) Единицы измерений: Man Days, Million Dollar56) Базы данных: Meta Data -
72 md
1) Общая лексика: измеренная глубина (measured depth)2) Компьютерная техника: Make Directory, Memory Disk, Meta Directory, Move Directory, Multiple Device, Multiplication Division, мини диск3) Медицина: Manic Depressant, Mental Disorder, Mind Destroying, врач, доктор, доктор медицины4) Военный термин: Maintenance And Diagnostics, Maintenance Diagnostic, Maniacal Dictator, Marine detachment, Marshalled Deployability, Material Development, Medical Department, Messy Desk, Meteorology Department, Minister of Defense, Ministry of Defense, Missile Defense, Mission Director, Mobilization Department, More Damage, More Death, Most Dangerous, Multi Directional, malfunction detection, management data, management directive, managing, managing director, map distance, materiel development, mean deviation, mechanically drawn, medical discharge, mess deck, message data, message-dropping, methyldichloroarsine, metropolitan district, milestone date, military district, mine depot, mine detection, mine disposal, miss distance, missile division, mission day, mission dependent, mobile depot, mobilization deployment, mobilization designation, modular design, monitor display, movement directive5) Техника: magnetic drum, mass defect, measured discard, meteorological device, microprocessor device, midcourse discrimination, modulation-demodulation, modulator, modulator-demodulator, motor-driven, multidimensional, multiplier/divider6) Сельское хозяйство: Marek's disease7) Шутливое выражение: Mac Daddy, Magic Damage, Magma Dragoon, Maniacal Doctor, Mean Dork, Medical Deity, Medical Deviate, Medical Diety, Medical Dissident, Medical Divinity, Medical Dunce, Mentally Defective, Merry Devil, Michael's Dream, Mirth Doctor, Miserable Doctor8) Математика: Mathematical Disposition, среднее отклонение (mean deviation), средняя разность (mean difference)9) Религия: Major Deity, Minor Deity, Most Divine10) Юридический термин: Majorly Demented, Malignant Denial, Mandatory Disclosure, Mentally Deranged, Morally Deficient, More Dope, Mucho Dough11) Экономика: Управляющий директор, директор-распорядитель (Managing Director)12) Бухгалтерия: Money Deficient13) Страхование: malicious damage14) Астрономия: Matter Dominated15) Ветеринария: Mad Dog16) Грубое выражение: Magneto Damn, Major Dumbass17) Металлургия: Manual Damper18) Музыка: Mad Drumming, Metered Diaphragm, Mountain Dulcimer, Musical Diversity19) Политика: Maybe Democrat, Moldova20) Телекоммуникации: Message Digest (IETF; MD2, MD4, MD5)21) Сокращение: Doctor of Medicine, Manufacturing Development, Maryland (US state), Materiels Directorate (US Army), Medical Doctor, Methyldichloroarsine (Chemical warfare blister agent), Moldavia, Months after Date, Musical Director, distance in miles, manual data, mentally deficient, milestone dates, motor direct22) Текстиль: Marked Down23) Университет: Mathematical Department, Music Director24) Физика: Magnetic Dipole, Most Dominant25) Физиология: Motion-defined, Muscular Dystrophy, maintenance dialysis26) Электроника: Molecular Dynamics27) Вычислительная техника: Make Directory (DOS, OS/2), Maryland (US state postal designation)28) Связь: Mediation Device (TMN)29) Транспорт: Morning Disaster, Motor Drive30) Пищевая промышленность: Meat Dog, Mogen David, Mostly Desserts, Mountain Dew31) СМИ: Madden Discussions, Microphone Doctor, Mini Disc, Monolog Doctor32) Бурение: drilled depth, глубина забоя, глубина по стволу, глубина по стволу скважины, забой, измеренное расстояние от устья скважины до некоторой точки в скважине33) Глоссарий компании Сахалин Энерджи: measured depth (of the well), medium pressure, глубина по инструменту (measured depth), измеренная глубина глубина по стволу (of the well; скважины, measured depth)34) Почта: Maryland (US postal abbreviation)35) Менеджмент: директор-распорядитель36) Образование: Mathematically Deficient, Medium To Difficult, Mentally Disabled37) Сетевые технологии: management domain, домен управления38) Полимеры: machine direction, maintenance division, maximum demand39) Программирование: Machine Dependent40) Автоматика: manufacturing director, mounting diameter, mounting distance, multiple drive41) Контроль качества: mean difference42) Сахалин Р: measured depth, measured depth of the well43) Макаров: молекулярная динамика44) Расширение файла: Monochrome Display, Mini Disk (Sony)45) Электротехника: mean downtime46) США: Maryland47) Фантастика Mad Doctor, Major Doona48) Имена и фамилии: Mickey Dolenz49) ООН: Media Division50) Hi-Fi. MiniDisc51) Должность: Mall Detective, Manly Dude, Marketing Director, Master Of Disguise, Medical Detective, Medicinae Doctor, Metaphysical Doctor, Multi Degree, Musical Doctor52) Чат: Mysterious Dude53) НАСА: Mini- Disk54) Программное обеспечение: Manufactured Diagnostics55) Единицы измерений: Man Days, Million Dollar56) Базы данных: Meta Data -
73 work
1) работа; действие; деятельность || работать; действовать2) обработка || обрабатывать3) заготовка; обрабатываемая деталь4) pl завод; мастерские5) pl конструкции, строительные конструкции6) pl подвижные органы; действующие элементы ( конструкции)7) исполнение•work being cut — заготовка, обрабатываемая резанием; разрезаемая заготовка
- angular workwork being turned between centers — деталь, обтачиваемая в центрах; центровая деталь
- assembly work
- axial work
- back work
- back-end work
- bar fed work
- bar work
- batch production work
- batch repetition work
- batch work
- between-centers shaft work
- between-centers work
- boring work
- bright work
- broaching work
- cam work
- C-axis work
- center work
- centerless work
- chucked work
- chucking work
- circuit-board work
- close tolerance work
- combined shaft and chucking work
- contour work
- contour-cutting work
- contouring work
- coordinate grid work
- copying work
- corner-to-corner work
- creep feed work
- cutting work
- cylindrical work
- development work
- diagrammatic work
- die work
- dovetail work
- drilling work
- elementary work of force
- erecting work
- erection work
- expended work
- external work
- facing work
- fine work
- finishing work
- first operation work
- five-axis work
- fixtured work
- flat surface work
- flat work
- frame work
- gaging work
- graphic work
- grinding work
- hard work
- heavy-duty work
- high-volume repetition work
- high-volume work
- horizontal work
- hot work
- in-cycle secong operation work
- information work
- internal work
- investigative work
- irregular work
- key work
- large-batch-size work
- lathe work
- layout work
- light production work
- link work
- load/offload work
- low-level CAD work
- low-volume work
- machine work
- maintaining work
- maintenance work
- mandrel work
- mandrel-held work
- measurement-based work
- medium-batch work
- medium-sized work
- medium-volume work
- milling work
- motion work
- multisided work
- NC milling work
- negative work
- night-unattended work
- nonexacting work
- off-center work
- one-hit work
- ornate scroll work
- out-of-tolerance work
- pallet work
- pallet-mounted work
- parallel work
- piece work
- pilot design work
- planer work
- point-to-point work
- precision work
- prismatic work
- process work
- product development work
- production work
- programming work
- prototype work
- pulling work
- pushing work
- R and D work
- radial work
- reaming work
- repetition work
- robot development work
- rotary work
- rotating tool-type work
- rough work
- roughing work
- round work
- safe work
- scheduled work
- scientific information work
- scientific work
- scroll work
- second-op work
- second-operation work
- semifinishing work
- shaft work
- shift work
- short-batch work
- short-run batch work
- short-run work
- single-shift work
- site work
- sizing work
- small section work
- small-batch work
- small-envelope milling work
- small-sized work
- starting work
- stationary tool-type work
- stop work
- taper work
- tapered work
- thicknessing work
- TL work
- to work off
- to work out
- tool room work
- tool work
- turned work
- useful work
- vertical work
- volume production work
- work of forceEnglish-Russian dictionary of mechanical engineering and automation > work
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74 Corliss, George Henry
SUBJECT AREA: Steam and internal combustion engines[br]b. 2 June 1817 Easton, Washington City, New York, USAd. 21 February 1888 USA[br]American inventor of a cut-off mechanism linked to the governor which revolutionized the operation of steam engines.[br]Corliss's father was a physician and surgeon. The son was educated at Greenwich, New York, but while he showed an aptitude for mathematics and mechanics he first of all became a storekeeper and then clerk, bookkeeper, salesperson and official measurer and inspector of the cloth produced at W.Mowbray \& Son. He went to the Castleton Academy, Vermont, for three years and at the age of 21 returned to a store of his own in Greenwich. Complaints about stitching in the boots he sold led him to patent a sewing machine. He approached Fairbanks, Bancroft \& Co., Providence, Rhode Island, machine and steam engine builders, about producing his machine, but they agreed to take him on as a draughtsman providing he abandoned it. Corliss moved to Providence with his family and soon revolutionized the design and construction of steam engines. Although he started working out ideas for his engine in 1846 and completed one in 1848 for the Providence Dyeing, Bleaching and Calendering Company, it was not until March 1849 that he obtained a patent. By that time he had joined John Barstow and E.J.Nightingale to form a new company, Corliss Nightingale \& Co., to build his design of steam-engines. He used paired valves, two inlet and two exhaust, placed on opposite sides of the cylinder, which gave good thermal properties in the flow of steam. His wrist-plate operating mechanism gave quick opening and his trip mechanism allowed the governor to regulate the closure of the inlet valve, giving maximum expansion for any load. It has been claimed that Corliss should rank equally with James Watt in the development of the steam-engine. The new company bought land in Providence for a factory which was completed in 1856 when the Corliss Engine Company was incorporated. Corliss directed the business activities as well as technical improvements. He took out further patents modifying his valve gear in 1851, 1852, 1859, 1867, 1875, 1880. The business grew until well over 1,000 workers were employed. The cylindrical oscillating valve normally associated with the Corliss engine did not make its appearance until 1850 and was included in the 1859 patent. The impressive beam engine designed for the 1876 Centennial Exhibition by E. Reynolds was the product of Corliss's works. Corliss also patented gear-cutting machines, boilers, condensing apparatus and a pumping engine for waterworks. While having little interest in politics, he represented North Providence in the General Assembly of Rhode Island between 1868 and 1870.[br]Further ReadingMany obituaries appeared in engineering journals at the time of his death. Dictionary of American Biography, 1930, Vol. IV, New York: C.Scribner's Sons. R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (explains Corliss's development of his valve gear).J.L.Wood, 1980–1, "The introduction of the Corliss engine to Britain", Transactions of the Newcomen Society 52 (provides an account of the introduction of his valve gear to Britain).W.H.Uhland, 1879, Corliss Engines and Allied Steam-motors, London: E. \& F.N.Spon.RLH -
75 Language
Philosophy is written in that great book, the universe, which is always open, right before our eyes. But one cannot understand this book without first learning to understand the language and to know the characters in which it is written. It is written in the language of mathematics, and the characters are triangles, circles, and other figures. Without these, one cannot understand a single word of it, and just wanders in a dark labyrinth. (Galileo, 1990, p. 232)It never happens that it [a nonhuman animal] arranges its speech in various ways in order to reply appropriately to everything that may be said in its presence, as even the lowest type of man can do. (Descartes, 1970a, p. 116)It is a very remarkable fact that there are none so depraved and stupid, without even excepting idiots, that they cannot arrange different words together, forming of them a statement by which they make known their thoughts; while, on the other hand, there is no other animal, however perfect and fortunately circumstanced it may be, which can do the same. (Descartes, 1967, p. 116)Human beings do not live in the object world alone, nor alone in the world of social activity as ordinarily understood, but are very much at the mercy of the particular language which has become the medium of expression for their society. It is quite an illusion to imagine that one adjusts to reality essentially without the use of language and that language is merely an incidental means of solving specific problems of communication or reflection. The fact of the matter is that the "real world" is to a large extent unconsciously built on the language habits of the group.... We see and hear and otherwise experience very largely as we do because the language habits of our community predispose certain choices of interpretation. (Sapir, 1921, p. 75)It powerfully conditions all our thinking about social problems and processes.... No two languages are ever sufficiently similar to be considered as representing the same social reality. The worlds in which different societies live are distinct worlds, not merely the same worlds with different labels attached. (Sapir, 1985, p. 162)[A list of language games, not meant to be exhaustive:]Giving orders, and obeying them- Describing the appearance of an object, or giving its measurements- Constructing an object from a description (a drawing)Reporting an eventSpeculating about an eventForming and testing a hypothesisPresenting the results of an experiment in tables and diagramsMaking up a story; and reading itPlay actingSinging catchesGuessing riddlesMaking a joke; and telling itSolving a problem in practical arithmeticTranslating from one language into anotherLANGUAGE Asking, thanking, cursing, greeting, and praying-. (Wittgenstein, 1953, Pt. I, No. 23, pp. 11 e-12 e)We dissect nature along lines laid down by our native languages.... The world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... No individual is free to describe nature with absolute impartiality but is constrained to certain modes of interpretation even while he thinks himself most free. (Whorf, 1956, pp. 153, 213-214)We dissect nature along the lines laid down by our native languages.The categories and types that we isolate from the world of phenomena we do not find there because they stare every observer in the face; on the contrary, the world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... We are thus introduced to a new principle of relativity, which holds that all observers are not led by the same physical evidence to the same picture of the universe, unless their linguistic backgrounds are similar or can in some way be calibrated. (Whorf, 1956, pp. 213-214)9) The Forms of a Person's Thoughts Are Controlled by Unperceived Patterns of His Own LanguageThe forms of a person's thoughts are controlled by inexorable laws of pattern of which he is unconscious. These patterns are the unperceived intricate systematizations of his own language-shown readily enough by a candid comparison and contrast with other languages, especially those of a different linguistic family. (Whorf, 1956, p. 252)It has come to be commonly held that many utterances which look like statements are either not intended at all, or only intended in part, to record or impart straightforward information about the facts.... Many traditional philosophical perplexities have arisen through a mistake-the mistake of taking as straightforward statements of fact utterances which are either (in interesting non-grammatical ways) nonsensical or else intended as something quite different. (Austin, 1962, pp. 2-3)In general, one might define a complex of semantic components connected by logical constants as a concept. The dictionary of a language is then a system of concepts in which a phonological form and certain syntactic and morphological characteristics are assigned to each concept. This system of concepts is structured by several types of relations. It is supplemented, furthermore, by redundancy or implicational rules..., representing general properties of the whole system of concepts.... At least a relevant part of these general rules is not bound to particular languages, but represents presumably universal structures of natural languages. They are not learned, but are rather a part of the human ability to acquire an arbitrary natural language. (Bierwisch, 1970, pp. 171-172)In studying the evolution of mind, we cannot guess to what extent there are physically possible alternatives to, say, transformational generative grammar, for an organism meeting certain other physical conditions characteristic of humans. Conceivably, there are none-or very few-in which case talk about evolution of the language capacity is beside the point. (Chomsky, 1972, p. 98)[It is] truth value rather than syntactic well-formedness that chiefly governs explicit verbal reinforcement by parents-which renders mildly paradoxical the fact that the usual product of such a training schedule is an adult whose speech is highly grammatical but not notably truthful. (R. O. Brown, 1973, p. 330)he conceptual base is responsible for formally representing the concepts underlying an utterance.... A given word in a language may or may not have one or more concepts underlying it.... On the sentential level, the utterances of a given language are encoded within a syntactic structure of that language. The basic construction of the sentential level is the sentence.The next highest level... is the conceptual level. We call the basic construction of this level the conceptualization. A conceptualization consists of concepts and certain relations among those concepts. We can consider that both levels exist at the same point in time and that for any unit on one level, some corresponding realizate exists on the other level. This realizate may be null or extremely complex.... Conceptualizations may relate to other conceptualizations by nesting or other specified relationships. (Schank, 1973, pp. 191-192)The mathematics of multi-dimensional interactive spaces and lattices, the projection of "computer behavior" on to possible models of cerebral functions, the theoretical and mechanical investigation of artificial intelligence, are producing a stream of sophisticated, often suggestive ideas.But it is, I believe, fair to say that nothing put forward until now in either theoretic design or mechanical mimicry comes even remotely in reach of the most rudimentary linguistic realities. (Steiner, 1975, p. 284)The step from the simple tool to the master tool, a tool to make tools (what we would now call a machine tool), seems to me indeed to parallel the final step to human language, which I call reconstitution. It expresses in a practical and social context the same understanding of hierarchy, and shows the same analysis by function as a basis for synthesis. (Bronowski, 1977, pp. 127-128)t is the language donn eґ in which we conduct our lives.... We have no other. And the danger is that formal linguistic models, in their loosely argued analogy with the axiomatic structure of the mathematical sciences, may block perception.... It is quite conceivable that, in language, continuous induction from simple, elemental units to more complex, realistic forms is not justified. The extent and formal "undecidability" of context-and every linguistic particle above the level of the phoneme is context-bound-may make it impossible, except in the most abstract, meta-linguistic sense, to pass from "pro-verbs," "kernals," or "deep deep structures" to actual speech. (Steiner, 1975, pp. 111-113)A higher-level formal language is an abstract machine. (Weizenbaum, 1976, p. 113)Jakobson sees metaphor and metonymy as the characteristic modes of binarily opposed polarities which between them underpin the two-fold process of selection and combination by which linguistic signs are formed.... Thus messages are constructed, as Saussure said, by a combination of a "horizontal" movement, which combines words together, and a "vertical" movement, which selects the particular words from the available inventory or "inner storehouse" of the language. The combinative (or syntagmatic) process manifests itself in contiguity (one word being placed next to another) and its mode is metonymic. The selective (or associative) process manifests itself in similarity (one word or concept being "like" another) and its mode is metaphoric. The "opposition" of metaphor and metonymy therefore may be said to represent in effect the essence of the total opposition between the synchronic mode of language (its immediate, coexistent, "vertical" relationships) and its diachronic mode (its sequential, successive, lineal progressive relationships). (Hawkes, 1977, pp. 77-78)It is striking that the layered structure that man has given to language constantly reappears in his analyses of nature. (Bronowski, 1977, p. 121)First, [an ideal intertheoretic reduction] provides us with a set of rules"correspondence rules" or "bridge laws," as the standard vernacular has it-which effect a mapping of the terms of the old theory (T o) onto a subset of the expressions of the new or reducing theory (T n). These rules guide the application of those selected expressions of T n in the following way: we are free to make singular applications of their correspondencerule doppelgangers in T o....Second, and equally important, a successful reduction ideally has the outcome that, under the term mapping effected by the correspondence rules, the central principles of T o (those of semantic and systematic importance) are mapped onto general sentences of T n that are theorems of Tn. (P. Churchland, 1979, p. 81)If non-linguistic factors must be included in grammar: beliefs, attitudes, etc. [this would] amount to a rejection of the initial idealization of language as an object of study. A priori such a move cannot be ruled out, but it must be empirically motivated. If it proves to be correct, I would conclude that language is a chaos that is not worth studying.... Note that the question is not whether beliefs or attitudes, and so on, play a role in linguistic behavior and linguistic judgments... [but rather] whether distinct cognitive structures can be identified, which interact in the real use of language and linguistic judgments, the grammatical system being one of these. (Chomsky, 1979, pp. 140, 152-153)23) Language Is Inevitably Influenced by Specific Contexts of Human InteractionLanguage cannot be studied in isolation from the investigation of "rationality." It cannot afford to neglect our everyday assumptions concerning the total behavior of a reasonable person.... An integrational linguistics must recognize that human beings inhabit a communicational space which is not neatly compartmentalized into language and nonlanguage.... It renounces in advance the possibility of setting up systems of forms and meanings which will "account for" a central core of linguistic behavior irrespective of the situation and communicational purposes involved. (Harris, 1981, p. 165)By innate [linguistic knowledge], Chomsky simply means "genetically programmed." He does not literally think that children are born with language in their heads ready to be spoken. He merely claims that a "blueprint is there, which is brought into use when the child reaches a certain point in her general development. With the help of this blueprint, she analyzes the language she hears around her more readily than she would if she were totally unprepared for the strange gabbling sounds which emerge from human mouths. (Aitchison, 1987, p. 31)Looking at ourselves from the computer viewpoint, we cannot avoid seeing that natural language is our most important "programming language." This means that a vast portion of our knowledge and activity is, for us, best communicated and understood in our natural language.... One could say that natural language was our first great original artifact and, since, as we increasingly realize, languages are machines, so natural language, with our brains to run it, was our primal invention of the universal computer. One could say this except for the sneaking suspicion that language isn't something we invented but something we became, not something we constructed but something in which we created, and recreated, ourselves. (Leiber, 1991, p. 8)Historical dictionary of quotations in cognitive science > Language
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76 time
1) время; период времени2) момент времени || отмечать время3) хронометрировать; рассчитывать по времени4) синхронизировать; согласовывать во времени•- access time
- accumulated operating time
- action time
- activity slack time
- actual activity completion time
- actual time
- actuation time
- addition time
- add time
- add-subtract time
- arrival time
- assembly time
- attended time
- available machine time
- average operation time
- awaiting-repair time
- binding time
- bit time
- build-up time
- calculating time
- carry-over time
- carry time
- chip-access delay time
- circuit time
- clear-write time
- coding time
- compile time
- computation time
- computer dead time
- computer time
- computer useful time
- computing time
- connect time
- control time
- crash time
- crisis time
- cycle time
- data time
- data-retention time
- dead time
- debatable time
- debugging time
- debug time
- decay time
- deceleration time
- delay time
- design time
- destination time
- development time
- digit time
- discrete time
- divide time
- down time
- earliest expected time
- effective time
- engineering time
- entry time
- error-free running time
- estimated time
- event scheduled completion time
- event slack time
- event time
- execution cycle time
- execution time
- expected activity time
- fall time
- fault correction time
- fault location time
- fault time
- fetch time
- float time
- form movement time
- forward-current rise time
- gate time
- good time
- guard time
- handshaking time
- holding time
- hold time
- idle time
- improvement time
- incidental time
- ineffective time
- inoperable time
- installation time
- instruction time
- integrator time
- interaction time
- interarrival time
- interrogation time
- latency time
- latest allowable event time
- load time
- lock-grant time
- lock-holding time
- logarithmic time
- machine available time
- machine spoiled work time
- machine spoiled time
- machine time
- maintenance time
- makeup time
- manual time
- mean error-free time
- mean repair time
- mean time between errors
- mean time between failures
- mean time to repair
- memory cycle time
- miscellaneous time
- mission time
- most likely time
- multiply time
- no-charge machine fault time
- no-charge non-machine-fault time
- no-charge time
- nonfailure operating time
- nonreal time
- nonscheduled down time
- nonscheduled maintenance time
- object time
- occurrence time
- off time
- on time
- one-pulse time
- operating time
- operation time
- operation-use time
- optimistic time
- out-of-service time
- peaking time
- peak time
- pessimistic time
- polynomial time
- pool time
- positioning time
- power up time
- pre-assembly time
- precedence waiting time
- preset time
- preventive maintenance time
- print interlock time
- problem time
- processing time
- process time
- processor cycle time
- production time
- productive time
- program execution time
- program fetch time
- program testing time
- progration time
- propagation delay time
- proving time
- pulse time
- punch start time
- read time
- reading access time
- readout time
- read-restore time
- real time
- record check time
- recovery time
- reference time
- refresh time
- reimbursed time
- repair delay time
- repair time
- representative computing time
- request-response time
- resetting time
- resolution time
- resolving time
- response time
- restoration time
- restoring time
- retrieval time
- reversal time
- reverse-current fall time
- rewind time
- rise time
- round-trip time
- routine maintenance time- run time- sampling time
- scaled real time
- scheduled time
- schedule time
- scheduled down time
- scheduled operating time
- scramble time
- screen storage time
- search time
- seek time
- send-receive-forward time
- sensitive time
- service time
- serviceable time
- setting time
- settling time
- setup time
- simulated time
- s-n transition time
- standby time
- starting time
- start time
- start-up time
- stop time
- storage cycle time
- storage time
- subtraction time
- subtract time
- superconducting-normal transition time
- supplementary maintenance time
- swap time
- switch delay time
- switch time
- switching time
- system time
- takedown time
- task time
- testing time
- throughput time
- time between failures
- time for motion to start
- time now
- total time
- track-to-track move time
- transfer time
- transit time
- transition time
- translating time
- true time
- turnaround time
- turnoff time
- turnon time
- turnover time
- unacked time
- unattended standby time
- unattended time
- unavailable time
- unit time
- unused time
- up time
- useful time
- user time
- variable dead time
- waiting time
- word time
- word-addressing time
- write timeEnglish-Russian dictionary of computer science and programming > time
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77 Bell, Thomas
SUBJECT AREA: Paper and printing[br]fl. 1770–1785 Scotland[br]Scottish inventor of a calico printing machine with the design engraved on rollers.[br]In November 1770, John Mackenzie, owner of a bleaching mill, took his millwright Thomas Bell to Glasgow to consult with James Watt about problems they were having with the calico printing machine invented by Bell some years previously. Bell rolled sheets of copper one eighth of an inch (3 mm) thick into cyliders, and filled them with cement which was held in place by cast iron ends. After being turned true and polished, the cylinders were engraved; they cost about £10 each. The printing machines were driven by a water-wheel, but Bell and Mackenzie appeared to have had problems with the doctor blades which scraped off excess colour, and this may have been why they visited Watt.They had, presumably, solved the technical problems when Bell took out a patent in 1783 which describes him as "the Elder", but there are no further details about the man himself. The machine is described as having six printing rollers arranged around the top of the circumference of a large central bowl. In later machines, the printing rollers were placed all round a smaller cylinder. All of the printing rollers, each printing a different colour, were driven by gearing to keep them in register. The patent includes steel doctor blades which would have scraped excess colour off the printing rollers. Another patent, taken out in 1784, shows a smaller three-colour machine. The printing rollers had an iron core covered with copper, which could be taken off at pleasure so that fresh patterns could be cut as desired. Bell's machine was used at Masney, near Preston, England, by Messrs Livesey, Hargreaves, Hall \& Co in 1786. Although copper cylinders were difficult to make and engrave, and the soldered seams often burst, these machines were able to increase the output of the cheaper types of printed cloth.[br]Bibliography1783, patent no. 1,378 (calico printing machine with engraved copper rollers). 1784, patent no. 1,443 (three-colour calico printing machine).Further ReadingW.E.A.Axon, 1886, Annals of Manchester, Manchester (provides an account of the invention).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (provides a brief description of the development of calico printing).RLH -
78 Maxim, Sir Hiram Stevens
[br]b. 5 February 1840 Brockway's Mills, Maine, USAd. 24 November 1916 Streatham, London, England[br]American (naturalized British) inventor; designer of the first fully automatic machine gun and of an experimental steam-powered aircraft.[br]Maxim was born the son of a pioneer farmer who later became a wood turner. Young Maxim was first apprenticed to a carriage maker and then embarked on a succession of jobs before joining his uncle in his engineering firm in Massachusetts in 1864. As a young man he gained a reputation as a boxer, but it was his uncle who first identified and encouraged Hiram's latent talent for invention.It was not, however, until 1878, when Maxim joined the first electric-light company to be established in the USA, as its Chief Engineer, that he began to make a name for himself. He developed an improved light filament and his electric pressure regulator not only won a prize at the first International Electrical Exhibition, held in Paris in 1881, but also resulted in his being made a Chevalier de la Légion d'honneur. While in Europe he was advised that weapons development was a more lucrative field than electricity; consequently, he moved to England and established a small laboratory at Hatton Garden, London. He began by investigating improvements to the Gatling gun in order to produce a weapon with a faster rate of fire and which was more accurate. In 1883, by adapting a Winchester carbine, he successfully produced a semi-automatic weapon, which used the recoil to cock the gun automatically after firing. The following year he took this concept a stage further and produced a fully automatic belt-fed weapon. The recoil drove barrel and breechblock to the vent. The barrel then halted, while the breechblock, now unlocked from the former, continued rearwards, extracting the spent case and recocking the firing mechanism. The return spring, which it had been compressing, then drove the breechblock forward again, chambering the next round, which had been fed from the belt, as it did so. Keeping the trigger pressed enabled the gun to continue firing until the belt was expended. The Maxim gun, as it became known, was adopted by almost every army within the decade, and was to remain in service for nearly fifty years. Maxim himself joined forces with the large British armaments firm of Vickers, and the Vickers machine gun, which served the British Army during two world wars, was merely a refined version of the Maxim gun.Maxim's interests continued to occupy several fields of technology, including flight. In 1891 he took out a patent for a steam-powered aeroplane fitted with a pendulous gyroscopic stabilizer which would maintain the pitch of the aeroplane at any desired inclination (basically, a simple autopilot). Maxim decided to test the relationship between power, thrust and lift before moving on to stability and control. He designed a lightweight steam-engine which developed 180 hp (135 kW) and drove a propeller measuring 17 ft 10 in. (5.44 m) in diameter. He fitted two of these engines into his huge flying machine testrig, which needed a wing span of 104 ft (31.7 m) to generate enough lift to overcome a total weight of 4 tons. The machine was not designed for free flight, but ran on one set of rails with a second set to prevent it rising more than about 2 ft (61 cm). At Baldwyn's Park in Kent on 31 July 1894 the huge machine, carrying Maxim and his crew, reached a speed of 42 mph (67.6 km/h) and lifted off its rails. Unfortunately, one of the restraining axles broke and the machine was extensively damaged. Although it was subsequently repaired and further trials carried out, these experiments were very expensive. Maxim eventually abandoned the flying machine and did not develop his idea for a stabilizer, turning instead to other projects. At the age of almost 70 he returned to the problems of flight and designed a biplane with a petrol engine: it was built in 1910 but never left the ground.In all, Maxim registered 122 US and 149 British patents on objects ranging from mousetraps to automatic spindles. Included among them was a 1901 patent for a foot-operated suction cleaner. In 1900 he became a British subject and he was knighted the following year. He remained a larger-than-life figure, both physically and in character, until the end of his life.[br]Principal Honours and DistinctionsChevalier de la Légion d'Honneur 1881. Knighted 1901.Bibliography1908, Natural and Artificial Flight, London. 1915, My Life, London: Methuen (autobiography).Further ReadingObituary, 1916, Engineer (1 December).Obituary, 1916, Engineering (1 December).P.F.Mottelay, 1920, The Life and Work of Sir Hiram Maxim, London and New York: John Lane.Dictionary of National Biography, 1912–1921, 1927, Oxford: Oxford University Press.See also: Pilcher, Percy SinclairCM / JDSBiographical history of technology > Maxim, Sir Hiram Stevens
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79 Dawson, William
SUBJECT AREA: Textiles[br]b. mid-eighteenth centuryd. c.1805 London, England[br]English inventor of the notched wheel for making patterns on early warp knitting machines.[br]William Dawson, a Leicester framework knitter, made an important addition to William Lee's knitting machine with his invention of the notched wheel in 1791. Lee's machine could make only plain knitting; to be able to knit patterns, there had to be some means of mechanically selecting and operating, independently of all the others, any individual thread, needle, lever or bar at work in the machine. This was partly achieved when Dawson devised a wheel that was irregularly notched on its edge and which, when rotated, pushed sprung bars, which in turn operated on the needles or other parts of the recently invented warp knitting machines. He seems to have first applied the idea for the knitting of military sashes, but then found it could be adapted to plait stay laces with great rapidity. With the financial assistance of two Leicester manufacturers and with his own good mechanical ability, Dawson found a way of cutting his wheels. However, the two financiers withdrew their support because he did not finish the design on time, although he was able to find a friend in a Nottingham architect, Mr Gregory, who helped him to obtain the patent. A number of his machines were set up in Nottingham but, like many other geniuses, he squandered his money away. When the patent expired, he asked Lord Chancellor Eldon to have it renewed: he moved his workshop to London, where Eldon inspected his machine, but the patent was not extended and in consequence Dawson committed suicide.[br]Bibliography1791, British patent no. 1,820 (notched wheel for knitting machine).Further ReadingW.Felkin, 1867, History of Machine-Wrought Hosiery and Lace Manufacture (covers Dawson's invention).W.English, 1969, The Textile Industry, London (provides an outline history of the development of knitting machines).RLH -
80 Deverill, Hooton
SUBJECT AREA: Textiles[br]fl. c.1835 England[br]English patentee of the first successful adaptation of the Jacquard machine for patterned lacemaking.[br]After John Levers had brought out his lacemaking machine in 1813, other lacemakers proceeded to elaborate their machinery so as to imitate the more complicated forms of handwork. One of these was Samuel Draper of Nottingham, who took out one patent in 1835 for the use of a Jacquard mechanism on a lace making machine, followed by another in 1837. However, material made on his machine cost more than the handmade article, so the experiment was abandoned after three years. Then, in Nottingham in 1841, Hooton Deverill patented the first truly successful application of the Jacquard to lacemaking. The Jacquard needles caused the warp threads to be pushed sideways to form the holes in the lace while the bobbins were moved around them to bind them together. This made it possible to reproduce most of the traditional patterns of handmade lace in both narrow and wide pieces. Lace made on these machines became cheap enough for most people to be able to hang it in their windows as curtains, or to use it for trimming clothing. However, it raised in a most serious form the problem of patent rights between the two patentees, Deverill and Draper, threatening much litigation. Deverill's patent was bought by Richard Birkin, who with his partner Biddle relinquished the patent rights. The lacemaking trade on these machines was thus thrown open to the public and a new development of the trade took place. Levers lace is still made in the way described here.[br]Bibliography1841, British patent no. 8,955 (adaptation of Jacquard machine for patterned lacemaking).Further ReadingW.Felkin, 1867, History of Machine-Wrought Hosiery and Lace Manufacture (provides an account of Deverill's patent).C.Singer (ed.), 1958, A History of'Technology, Vol. V, Oxford: Clarendon Press (a modern account).T.K.Derry and T.I.Williams, 1960, A Short History of Technology from the EarliestTimes to AD 1900, Oxford.RLH
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Machine-readable dictionary — ( MRD ) is a dictionary stored as machine (computer) data instead of being printed on paper. It is an electronic dictionary and lexical database.A machine readable dictionary is a dictionary in an electronic form that can be loaded in a database… … Wikipedia
Machine olfaction — is the automated simulation of the sense of smell. It is an emerging requirement of modern robotics where robots or other automated systems are needed to measure the existence of a particular chemical concentration in air. This technology is… … Wikipedia
Machine — This article is about devices that perform tasks. For other uses, see Machine (disambiguation). A machine manages power to accomplish a task, examples include, a mechanical system, a computing system, an electronic system, and a molecular machine … Wikipedia
Machine gun — [ thumb|200px|An illustration of later model 19th century Gatling gun. It was a multi barreled rotary machine gun fired via a manual crank, which mechanically loaded and primed cartridges from the hopper above the gun] : For other uses of the… … Wikipedia
Development of Japanese tanks in World War II — The Imperial Japanese Army (IJA) initially purchased foreign tanks for evaluation during World War I, and began developing its own indigenous designs during the late 1920s.Initial tank procurementNear the end of World War I, the IJA showed an… … Wikipedia
Machine tool — A machine tool is a powered mechanical device, typically used to fabricate metal components of machines by machining, which is the selective removal of metal. The term machine tool is usually reserved for tools that used a power source other than … Wikipedia