-
41 sequence
1) последовательность; чередование; цикл ( работы)2) цепь (кинематическая, силовая); ряд последовательно действующих звеньев3) направлять (напр. обрабатываемую деталь) в заданной технологической последовательности•- back-step sequence
- block sequence
- call sequence
- calling sequence
- change sequence
- coded sequence
- computer stored sequences
- control sequence
- cutting sequence
- cut-to-cut pallet change sequence
- cycle sequence
- design sequence
- drafting sequence
- eject sequence
- execution sequence
- forward-chaining cycle sequence
- grinding sequence
- impulse input sequence
- instruction sequence
- load/off-load sequence
- load-and-unload sequence
- loading sequence
- machine sequence
- machining sequence
- manufacturing sequence
- measurement sequence
- open ended sequence
- operating sequence
- operation-routing sequence
- order sequence
- packing sequence
- pallet change sequence
- part mix sequence
- preplanned sequence
- processing sequence
- production sequence
- program sequence
- programmed sequence
- pseudorandom sequence
- random sequence
- rough grinding sequence
- routing sequence
- sequence of instructions
- shutdown sequence
- sparse sequence of points
- specified sequence
- start-up sequence
- teachable sequence of motions
- test sequence
- throughput sequence
- time-based process sequence
- tool-changing sequence
- transfer sequence
- unfinished sequence
- unload sequence
- unloading sequence
- wheel-dressing sequence
- work sequenceEnglish-Russian dictionary of mechanical engineering and automation > sequence
-
42 test
1) испытание; испытания || испытывать2) проверка; контроль || проверять; контролировать3) тест; тестирование || тестировать5) стат. критерий•- accelerated testto dry test — испытывать без резания, испытывать станок без резания, испытывать на холостом ходу
- acceptance test
- alignment test
- alternative test
- angular test
- approval test
- axial load test
- axial test
- back-to-back test
- balance test
- bar-to-bar test
- benchmark test
- bend test
- bending fatigue test
- bending test
- bend-over test
- black-band test
- blow-bending test
- blueing test
- bond test
- brake test
- braking test
- breaking test
- Brinell hardness test
- Brinell test
- buckling test
- calibrated driving machine test
- calibration test
- calorimetric test
- camera-aided test
- carbon test
- certification test
- Charpy impact test
- Charpy test
- check test
- check-out test
- closure test
- cold bend test
- cold pressing test
- collision test
- commissioning test
- commutation test
- comparative test
- compression test
- computer-aided design and test
- computer-assisted fault isolation test
- cone-indentation test
- cone-thrust test
- conformance test
- controlled test
- core test
- corrosion fatigue test
- corrosion test
- creep test
- cutting test
- deflection tests
- destruction test
- destructive test
- determinative test
- development test
- developmental test
- diagnostic test
- diamond-pyramid hardness test
- discrimination test
- disk test
- drawing test
- driving test
- driving-profile test
- drop test
- durability test
- dynamic test
- dynamometer test
- eddy current test
- efficiency test
- electrical back-to-back test
- end-to-end test
- endurance test
- environmental test
- etching test
- evaluation test
- extraction test
- facing test
- factory test
- fatigue test
- fault detection test
- fault location test
- field test
- final test
- flattening test
- flex life test
- flexural test
- flexure test
- forging test
- friction test
- frictional test
- full-scale test
- functional test
- gear life test
- geometric test
- geometrical test
- grab test
- ground test
- hardness test
- harmonic test
- high-voltage test
- hydraulic pressure test
- hydraulic test
- identification tests
- impact test
- impulse test
- in-process test
- inspection test
- investigation test
- Jominy test
- L-2 test
- lab test
- laboratory test
- leak test
- life test
- light load test
- load test
- machinability test
- machine tool alignment test
- machine tool test
- machining performance test
- magnetic test
- maintenance test
- mechanical test
- micrographic test
- monitoring test
- noise-level test
- no-load test
- nondestructive test
- official test
- open-circuit test
- operating test
- optimality test
- out-of-control tests
- overhead load test
- overload test
- overspeed test
- peel test
- performance test
- periodic test
- periodical test
- practical test
- precision test
- predelivery test
- preinstallation test
- preliminary test
- preproduction test
- preventive test
- production test
- production-type test
- profile tests
- proof test
- qualification test
- quality assurance test
- quality conformance test
- quality performance test
- random test
- ravel test
- reduced test
- reliability compliance test
- reliability determination test
- reliability test
- response test
- retardation test
- rig test
- roller fatigue test
- roller life test
- routine check tests
- routine test
- running test
- rupture test
- safety test
- saline droplet corrosion test
- sampling test
- scoring test
- sequential test
- service test
- shear test
- shearing test
- shock test
- short test
- simulated service test
- single test
- soft test
- sound test
- special test
- stability test
- standard test
- starting test
- state tests
- static bending test
- static test
- step stress test
- storage test
- straightening test
- strength test
- strip test
- sudden short-circuit test
- sustained power test
- sustained short-circuit test
- tear test
- tear-apart test
- temperature-rise test
- tensile test
- tension test
- test of the accuracy
- thermal test
- time-restricted test
- tool wear test
- torsional test
- transportability test
- trouble-free assurance test
- trouble-free quality assurance test
- Turing test
- twist test
- twisting test
- type approval test
- type test
- upsetting test
- use test
- validation test
- vibration test
- waveform test
- wear test
- working testEnglish-Russian dictionary of mechanical engineering and automation > test
-
43 boring
бурение; расточка; растачивание; сверление; рассверливание; высверливание; буровая скважина; шпур; pl. буровые работы; II расточной- boring-and-facing head - boring-and-milling unit - boring and milling machining center - boring-and-turning lathe - boring-and-turning mill - boring arbor - boring-bar kit - boring bar receiver - boring bar shaft - boring bar toolholder - boring bar with cutter fitting at 90° - boring bit - boring block - boring capacity - boring cartridge - boring chisel - boring chuck - boring cutter - boring depth - boring diameter - drilling and milling head - boring and milling head - drilling and milling machine - boring and milling machine - boring-facing machine - boring feed - boring finish cut - boring fixture - boring for oil - boring head - boring head setter - boring in the lathe - boring job - boring lathe - boring line - boring machine - boring mill - boring mill workcenter - boring pump - boring range - boring sample - boring shaft - boring slide - boring speed - boring spindle - boring spindle extension - boring spindle slide - boring spindle unit - boring stay - boring step - boring system - boring test - boring tolerance capability - boring tool - boring tool holder - boring unit - boring with line - boring work - back boring - cantilevered boring - contour boring - cylindrical boring - deep boring - deep-hole boring -
44 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
См. также в других словарях:
Machining — Machine shop redirects here. For the record label, see Machine Shop Recordings. New Guinea in 1943. Mobile Machine Shop truck of the US Army with machinists working on automotive parts. Conventional machining is a form of subtractive… … Wikipedia
List of STEP (ISO 10303) parts — An incomplete list of parts making up STEP (ISO 10303):Descriptions methods* Part 1 Overview and fundamental principles (1994). Unfortunately outdated, not covering the role of AICs and modules. * Part 11 EXPRESS language reference manual * Part… … Wikipedia
Muzzleloader — A muzzleloader is any firearm into which the projectile and usually the propellant charge is loaded from the muzzle of the gun (i.e. from the forward, open end of the gun s barrel). This is distinct from the more popular modern (higher tech and… … Wikipedia
Metalworking — Machining a bar of metal on a lathe. Metalworking is the process of working with metals to create individual parts, assemblies, or large scale structures. The term covers a wide range of work from large ships and bridges to precise engine parts… … Wikipedia
automation — /aw teuh may sheuhn/, n. 1. the technique, method, or system of operating or controlling a process by highly automatic means, as by electronic devices, reducing human intervention to a minimum. 2. a mechanical device, operated electronically,… … Universalium
Drill bit — For the fictional character, see Drill Bit (Transformers). For the cancelled skyscraper nicknamed Drill bit, see Chicago Spire. For the types used in drilling wells, see Well drilling. From top to bottom: Spade, lip and spur (brad point), masonry … Wikipedia
Computer-aided manufacturing — CAD model and CNC machined part Computer aided manufacturing (CAM) is the use of computer software to control machine tools and related machinery in the manufacturing of workpieces.[1] … Wikipedia
Business and Industry Review — ▪ 1999 Introduction Overview Annual Average Rates of Growth of Manufacturing Output, 1980 97, Table Pattern of Output, 1994 97, Table Index Numbers of Production, Employment, and Productivity in Manufacturing Industries, Table (For Annual… … Universalium
Daxcad — CADD and CAD redirect here. For other uses, see CADD (disambiguation) and CAD (disambiguation). DAXCAD (CAD) DaxCAD is a 2D Computer Aided Drawing software application written in the early 1980s by Practical Technology Ltd. Contents 1… … Wikipedia
Chip formation — The basic chip formation process. Chip formation is part of the process of cutting materials by mechanical means, using tools such as saws, lathes and milling cutters. An understanding of the theory and engineering of this formation is an… … Wikipedia
Numerical control — CNC redirects here. For other uses, see CNC (disambiguation). A CNC Turning Center … Wikipedia