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101 Cone Drawing Box
A preparatory machine in worsted spinning. The wool is positively wound on to suitable sized bobbins without strain in this system whereas twist is given to the sliver in the ordinary drawing box system to give it strength to pull the bobbin round. With the cone box the silvers are drawn softer and as larger bobbins are used there is more economical working. -
102 tank
бак; резервуар; цистерна; бассейн; заправлять бакиcold gas storage tank — газовый аккумулятор; аккумулятор давления
combined oil tank and sump — маслобак, объединённый с отстойником
wing pylon mounted tank — бак, подвешиваемый под крылом на пилоне
— air tank— HTP tank— lox tank— oil tank— tip tank -
103 performance
1) работа; функционирование; действие; исполнение; выполнение2) (рабочая) характеристика; (рабочие) характеристики; эксплуатационные качества; эксплуатационные данные; рабочие параметры; эксплуатационные параметры4) производительность; эффективность, кпд; пропускная способность; быстродействие5) ходовые качества ( судна)6) лётно-технические характеристики, лётные качества•spread in performance — разброс( рабочих) характеристик-
aerodynamic performance
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aircraft maintenance performance
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aircraft performance
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aircraft scheduled performance
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altitude performance
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antijam performance
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automatic performance
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best performance
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blasting performance
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bottom-end performance
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braking performance
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cell schedule performance
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cell/operator performance
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circling performance
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climb performance
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cogging performance
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continuous downhill brake performance
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cooling performance
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corrosion performance
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cryostat performance
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degassing performance
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downhole performance
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drilling bit performance
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drill bit performance
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elsewhere below ground performance
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energy delivery performance
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engine acoustic performance
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error-free performance
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error-rate performance
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estimated performance
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external performance
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field performance
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filter performance
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furnace performance
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heat-transfer performance
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hydraulic performance
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internal performance
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kinetic performance
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knock-limited performance
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limit machine performance
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lining performance
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machining performance
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man-shift performance
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manual performance
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mold performance
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navigation performance
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noise performance
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oil production performance
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optimum performance
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phase performance
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photovoltaic performance
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production performance
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propulsive performance
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protective performance of arrester
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prove-in performance
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pump performance
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refrigeration performance
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reservoir performance
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ride performance
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roll performance
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rough-terrain performance
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rough-water performance
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service performance
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solar cell performance
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speed performance
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spinning performance
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statistical performance
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stillwater performance
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structural performance
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suction pump performance
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system performance
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teat performance
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thermal performance
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towing performance
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transient performance
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turning performance
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waterflooding performance
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wavegoing performance
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windmilling performance
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yarn knitting performance -
104 reserve
1) запас; резерв || запасать; резервировать2) мор. заповедник, резерват3) полоса отчуждения (напр. канала)•-
additional proved reserves
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alkaline reserve
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aromatic reserve
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coal reserves
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cold reserve
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developed proved reserves
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ecological reserve
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electrical reserve
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emergency reserve
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enhanced recovery reserves
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explored reserves
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forest reserve
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fuel reserve
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gas reserves
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hot reserve
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ignition reserve
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immediate reserve
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indicated reserves
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inferred reserve
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in-situ reserves
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instantaneous reserve
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known reserves
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mineable reserves
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nature reserve
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nonspinning reserve
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oil reserves
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open-cut reserves
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operating reserve
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pedal reserve
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possible reserves
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power reserve
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primary reserves
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probable reserves
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proven reserves
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reactive-power reserve
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recoverable reserves
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reserve of buoyancy
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secondary reserves
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special nature reserve
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spinning reserve
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standing reserve
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strict nature reserve
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system reserve
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temporary reserve
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thrust reserve
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timber reserve
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underground reserves
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undeveloped proved reserves
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undrainable fuel reserve
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unrecoverable reserves
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unusable fuel reserve -
105 SPINRAC
Космонавтика: Spinning rocket attitude control system (Sweden) -
106 device
приспособление; механизм; устройство; установка; прибор; аппарат (см. также apparatus, instrument, mechanism); элемент; компонент; метод; методика; процедура; способ; план; проект; схема; эмблема; амер. значок- device capacity - device class - device complexity - device control character - device control register - device control unit - device coordinates - device cycle - device directory - device docking - device driver - device error message - device executive - device for all-range centrifugal regulator correction - device ID - device independent - device integration - device operating failures - device queue - device resolution - device stability - device status condition - device under test - activation device - alarm device - anticrash device - AND device - anti-dazzling device - anticollision device - anticreep device - antidive device - antijamming device - antijoy ride device - antipumping device - antiroll device - antirotation device - assembly feed device - automatic arm locking device - automatic tracking device - bit rotation device - breakaway device - breakaway safety device - breakout device - bridge device - bridging device - built-in diagnostic device - bucket-tipping device - casing-rotating device - catch device - catching device - center-locating device - central control device - chain-stretching device - chain-type leveling device - levelling device - changeover device - character display device - charging device - checking device - chip control device - chip flushing device - choice device - chuck jaw-changing device - chuck jaw-forming device - chuck location device - chucking device - circular milling device - clearance device - clearing device - clever device - clutch antirotation device - clutch-operating device - code device - coded automatic reader device - cold-start device - compensating device - complete device - compliance device - compliant device - computer access device - conditioning device - constant hydrostatic head device - constant tension device - constant torque device - contact device - contact sealing device - continuously variable adjustment device - control device - control-monitor device - control device controlling device - controlled device - controlled handling device - controlling device - conveying-loading device - coolant transfer device - copying device - correcting device - crane device - cross rail clamping device - current-collecting device - custom's device - cutoff device - cut-out device - cutter angle testing device - cutter-checking device - cutter-trueing device - damping device - data storage device - data-setting device - deburring device - deep hole tapping device - defective device - delta-connected device - density device - depth-measuring device - differential device - differential speed reduction device - digital measuring device - dimension monitoring device - directed beam display device - discrete output device - disengaging device - disk-type leveling device - display device - distance-measuring device - diverting device - dividing device - dragging device - dressing device - drilling device - drive device - driven device - driving roller device - duplicating device - edging device - educational device - electric control device - electromechanical locking device in case of rope failure - electronic storage device - emergency cutoff device - emergency-knockoff device - emergency release device - emergency stop device - emission control device - emptying device - end device device - end-finishing device - end-machining device - end-of-arm tooling safety device - energy storage device - error-detection device - error-sensing device - escapement device - estimation device - etching device - executive device - expandable holding device - external diagnostic device - external read-in device - fail-active device - fail-passive device - fail-safe device - failure-detection device - failure-indicating device - failure-sensing device - fastening device - fault-isolation device - fault-locating device - feed control device - feeding device - fifth-wheel device - finger-type leveling device - finger-type levelling device - fixed length stroke device - fixing device - fixturing device - flaw-detecting device - flotation device - flow control device - flow-diverting device - fluid logic device - four-arm device - fuel-metering device - fuel run-out warning device - functional switching device - galvanic device - gas discharge device - gas-partitioning device - go-no-go device - grabbing device - graphic input device - gravitational separating device - gravity device - gripping device - guard device - guide device - Hall device - Hall-effect device - handling device - hard-wired command-and-control device - hauling device - height-measuring device - height setting-and-measuring device - helical milling device - high-pressure cleaning device - hoisting device - hold-down device - hold-off device - holding device - holding down device - hole-locating device - homing device - honing device - hooking device - hopper-type loading device - hydraulic releasing device - hydraulic retaining device - hydraulically actuated retaining device - ignition device - in-line device - in-process gaging device - in-process storage device - indexing device - indicating device - indicator device - inertial energy-storage device - information-processing device - input device - input-output device - inspection device - insulation monitoring device - interference detection device - interlock device - interlocking device - isolating device - jarring device - jaw shift device - jet device - joint device - knock-off device - labour-saving device - latching device - laying device - lift device - lift device with insulating arm - lifting device - limiting device - linear measuring device - load-handling device - load safety device - load-unload device - loading device - loading-unloading device - locating device - locking device - long lateral device - long normal device - low-frequency galvanic device - lubricating device - M-code device - machine retaining device - machine-dedicated device - machining device - magnetic holding device - magnetic medium input device - magnetic release device - magnetic testing device - magnetizing device - make-and-break device - manual input device - marking device - master device - master locating device - matching device - material-handling device - materials-handling device - measuring device - mechanical switching device - mechanical system diagnostic device - mending device - metering device - metrology room device - microautomatic device - microfocused device - micrometric displacement device - microspacing device - minimum-current release device - miter-cutting device - mixing device - monitoring device - monostable device - motion translation device - movement position device - muffling device - multichannel analyzer device - multidigit display device - multipallet automatic pallet-changing device - multipart clamping device - multiple switching device - multipoint measuring device - night viewing device - noise-attenuating device - noise-eliminating device - nondeteriorating device - nonsynchronous loading device - normal device - normal logging device - numerical control device - nut-locking device - off-line device - offloading device - offtake device - oiling device - oleodynamic device - on-line device - operating device - operation-performing device - optical reading device - optical scanning device - optoelectronic device - OR device - orienting device - origin-shift device - output device - oval turning device - overcurrent release device - overload-detecting device - overload device - overload prevention device - overload-protection device - overload release device - overload safety device - override-idle economy device - pallet load-unload device - pallet locating-and-clamping device - pallet shuttle device - pallet transfer device - pallet transport device - part handling-and-storage device - part-marking device - part present device - part presentation device - part probing device - partitioning device - pen-equipped device - peripheral recording device - permanent insulation monitoring device - personal protective device - photoelectric device - photoelectric semiconductor device - photosensitive device - pick device - pick-and-place device - pickup device - pipe collapsing device - pipe-cutting device - pipe hoisting device - pipe makeup and breakout automatic device - pipe-shearing device - pipe stabber device - pit level device - plotting device - plug-in device - plugging device - pointer device - pointer-type device - pointing device - poligon-cutting device - polyphase device - polyphase electrical device - porosity-estimating device - porosity-sensitive device - position control device - positioning device - power-assisted clamping device - power chucking device - preselector device - presence sensing device - pressure abnormal fall detecting device - pressure-difference device - pressure fall preventing device - pressure-sensing device - primary device - printing device - probe control device - probe-changing device - probing device - process-monitoring device - profiling device - program transfer device - programmable device - programmable wheel trueing device - projection optical device - propulsion device - propulsive device - protecting device - protective device - puller device - pulling device - pushing device - radial stretching device - radius planing device - radius trueing device - rail-clamping device - rail-setting device - ratchet device - ratcheting device - reading device - readout device - ready-not-ready device - reclosing device - recognition device - recording device - redundancy device - redundant device - regulating device - regulator device - relay device - releasing device - relief device - relieving device - remote maintenance device - repairable device - resetting device - resistivity measuring device - resolver position measuring device - rest device - restraint device - retaining device - retrieval device - return spring device - reverse-current release device - reverse-thrust device - reversing device - right-angle orientating device - robot device - robot-like device - robot load-unload device - robot part-handling device - robotic device - robotic inspection device - robotic loading device - rocking device - roll feed device - rotary machining device - rotary power-torque device - rotating device - sand-spraying device - safety device - safety alarm device - safety control device - safety interlock device - safety locking device - safety slipping device - sampling device - scanning device - scraping device - screening device - screw copying device - screw locking device - sealing device - search device - searching device - securing device - seed-feeding device - sowing device - seed-sowing device - self-balancing device - self-diagnosis device - self-gripping device - self-healing device - self-leveling device - self-levelling device - self-reacting device - self-repair device - semiautomatic device - semiconductor device - semiconductor display device - semiconductor power device - semiconductor switching device - sending device - sensing device - sensing-switching device - sensor device - separation device - serial device - setting device - shaker device - shearing device - short normal device - short-time memory device - shut-down device - shut-off device - shuting-off device - sighting device - signal device - signaling device - single-lever locking device - single-phase device - single-phase electrical device - single-pole switching device - sizing device - skew-compensating device - slitter device - slowing-down device - smart device - smart power device - snap-action switching device - sonic device - sound emitting device - special machine retaining device - speed reduction device - speed-limit device - speed-limiting device - speed-sensing device - spindle-keylock device - spindle-keylocking device - spinning device - spiral milling device - split clamping device - spooling device - spraying device - spreading device - spring balancing device - squelch device - stall warning device - star-connected device - starting device - static switching device - steadying device - steering device - stirring device - stocking device - stop device - stopper-rod device - stopping device - storage device - stretching device - strip-off device - stroke device - surface-mounted device - swing arm device - swirling device - switch device - switching device - switch-type sensing device - switching-off device - table-tilting device - tactile sensing device - take-up device - taper-turning device - tapping device - tea-leaf harvesting device - picking device - telechiric device - telemetering device - tensioner device - tensioning device - testing device - thermal release device - thermoelectric device - three-axis sensing device - three-dimensional sensing device - three-linear axis device - thrust-vectoring device - tightening device - tilting device - time-cycling device - time-delay device - tipping device - tool-changing device - tool-checking device - tool feed control device - tool-guiding device - tool life control device - tool-loading device - tool-pregaging device - tool-presetting device - tool-setting device - tool storage device - toolholder-changing device - toolholding device - torque release device - tracing device - transfer device - trip-free mechanical switching device - tripping device - trouble-location device - trouble-shooting device - trueing device - trunnion device - tube end finishing device - tube-cutting device - tube-trimming device - turnaround device - turnover device - twin-pallet rotating device - two-axis sensing device - ultrasonic proximity device - universal machine retaining device - upsetting device - unwinding device - variable gain device - variable speed device - vector-measuring device - visible light emission device - warning device - washing device - water suction device - waveguide protection device - wear-sensing device - weighting device - wheel-trueing device - withdrawing device - work recognition device - work rest device - work-staging device - work transfer device - workhandling device - workholding device - workpiece holddown device - workpiece-sensing device - workpiece support device - worm-type leveling device - zero-resetting device - zero-setting device -
107 draft
тяга (воздуха, топочных газов); сила тяги; тяговое усилие; натяжение; сквозняк (напр. в кузове); вытяжной шкаф; вытяжное устройство; эскиз; план; набросок; рисунок; чертёж; уклон (ковочного штампа); обжатие; уменьшение поперечного сечения; волочение; натяг (клина); стяжка (в соединениях шипами); жёлоб; ободок; II чертить; эскизировать; проектировать; тащить; буксировать; вытягивать- draft bead - draft bolt - draft chassis - draft chisel - draft controller - draft damper - draft effect - draft end load - draft fan - draft flue - draft force - draft frame - draft free - draft-free ventilation - draft gage - draft gauge - draft gear - draft gear capacity - draft gear housing - draft gear pocket - draft gear pocket arrangement - draft gear recoil - draft gear reconditioning - draft gear sticking - draft gear travel - draft hood - draft hook - draft key - draft key retainer - draft line - draft load - draft loss - draft lug angle - draft meter - draft pinion - draft pole - draft power - draft-proof ventilation - draft proposal - draft ratio - draft-regulating damper - draft resistance - draft sill - draft stop - draft system - draft technical report - draft test - draft tube - draft-tube diffuser - draft-tube stoplog - draft ventilation - cooling draft - direct draft - edging draft - false draft - fan draft - figured draft - finishing draft - forced draft - hovering draft - indirect draft - induced draft - induced air draft - intermediate draft - invert draft - jet draft - mechanical draft - natural draft - partial draft - positive draft - rolling draft - rough draft - side draft of the blade - spinning draft - upward draft -
108 wheel
колесо; проф. скат; скатка; проф. "баранка"; руль; маховик; ручной маховичок; зубчатое колесо; шестерня; штурвал; шлифовальный круг; II катить; поворачивать; шлифовать- wheel alignment - wheel-and-disk integrator - wheel arch - wheel axis - wheel balance - wheel balancing fixture - wheel blank - wheel bouncing - wheel cap - wheel carrier - wheel caster - wheel felloe - wheel fight - wheel fork - wheel free-type lift - wheel front support - wheel front support arm - wheel hop - wheel-hub drive - wheel lean gear housing - wheel loader - wheel lock ring - wheel lock-up - wheel locking - wheel lug - wheel-mounted - wheel-mounted shovel - wheel mounting - wheel nut wrench - wheel offset - wheel-out tank - wheel payloader - wheel peener - wheel plane - wheel plate - wheel pressure - wheel puller - wheel pump - wheel reduction gear - wheel rolling along the plane - wheel scotch - wheel shaft - wheel side ring - wheel sideway - wheel size - wheel skidder - wheel skids - wheel slide protection - wheel slip - wheel slip angle - wheel slip brake control system - wheel slipper - wheel spacer ring - wheel spacing - wheel speed sensor - wheel spider - wheel spin - wheel splash guard - wheel spoke - wheel springing - wheel stand - wheel suspention - wheel swarf - wheel tip compactor - wheel toe - wheel track eliminator - wheel tractor - wheel tractor scraper - wheel tramp - wheel tread pressure - wheel tread thickness - wheel-type tractor - wheel washer - wheel wearing - wheel web - wheel with drop center rim - wheel wobble - bull wheel - castor wheel - swivelling wheel - castoring wheel - centre wheel - correcting wheel - coupled wheel - depth-control wheel - dirigible wheel - dished steering wheel - escapement wheel - fine-grain grinding wheel - great wheel - great setting wheel - herringbone wheel - hind wheel - hypoidal wheel - idle wheel - impulse wheel - interchangeable gear wheels - intermedial wheel - intermediate wheel - internal gear-wheel - keyless wheel - knife wheel - laminated grinding wheel - land wheel - landing wheel - leading wheel - lever escape wheel - lifter wheel - little main wheel - little setting wheel - locking wheel - maintaining wheel - mangle wheel - Mansell wheel - metering wheel - middle wheel - minute wheel - mitre wheel - mortice wheel - multiplying wheel - one-side grinding wheel - pick-up wheel - spiked wheel - lantern wheel - pitch wheel - plate wheel - plough trail wheel - pricking wheel - rear furrow wheel - regulating wheel - skew bevel wheel - spinner wheel - spinning wheel - resilient steering wheel - star-feed wheel - third wheel - traveling wheel - worm wheel -
109 rotation
1. n вращение2. n оборотrotation time — время оборота; во время оборота
3. n чередование; периодическое повторениеby rotation — попеременно, по очереди
4. n спорт. чередование игроков5. n воен. замена личного состава или частей6. n перемещение по кругу7. n с. -х. севооборот, ротацияrotation cropping — сменная культура, плодосмен
five-course rotation — пятипольный севооборот, пятиполье
crop rotation — севооборот, плодосмен
8. n лес. оборот рубки9. n гидр. вихрьСинонимический ряд:1. alternation (noun) alternation2. revolution (noun) alternating; circling; circuit; circulation; circumvolution; cycle; evolution; gyration; gyre; orbiting; revolution; revolve; round; spin; spinning; turn; turning; wheel; whirl -
110 gyro
1. гироскоп2. гироскопический -
111 Merino Yarn
This is a mixture yarn produced by blending wool and cotton together and spinning on the French worsted system. The percentage varies from 5 per cent to 85 per cent of wool. The most popular is 50 per cent. Used in the manufacture of high-class shirtings and pyjamas. -
112 Skin Wools
These are the product of the fellmongering industry as carried on in the Colonies, on the Continent, and in this country to a smaller extent. They consist of the wool removed from the skins of sheep slaughtered for mutton purposes. Many of these " skin " wools are of excellent quality; but large quantities, through unsatisfactory treatment during separation, and because of the absence of sorting, and neglect in skirting, picking, etc., are only useful for medium and low-class goods. Such wools lack spinning property, have a harsh handle, and do not mill and dye in the manner of the " fleece " wools. " Skin " wools are of the following types: - (1) Sun-dried and removed from the skin by a process of sweating; (2) separated by chemical agency, chiefly by sodium sulphide; (3) sliped from the skin after fibre separation through the application of lime (see slipe). Mazamet, France, is a great centre of the fellmongering industry, and a big business is done. Wools that are often of excellent quality and colour are taken from skins collected from all the principal wool-growing parts, and forwarded to all the important manufacturing centres through agents. Wools of Class 2 are largely the product of Colonial fellmongering stations in which the industry is of more recent growth. The system employed is the sodium sulphide process. Sodium suphide has the property of destroying the epidermis of the skin while improving the quality of the pelt. A 10 per cent solution of sodium sulphide will dissolve wool completely in 15 minutes. After washing, the skins are painted on the flesh side with thick paint of sodium sulphide. The skins are allowed to lie overnight, and the roots of the wool become loosened, the hair bulbs being destroyed, after which the wool is readily pulled by hand. -
113 test
1. испытание, испытания; проверка; контроль; тестирование; опробование;см. тж. testing/ испытывать; проверять; контролировать; тестировать; опробовать2. тест; проба3. критерий; признакaccelerate-stop testsaccelerated mission testacceleration-deceleration testaerobatic flight testsaeroelastic testsagility testair resonance testair-to-air testair-to-air combat testairframe testairspeed calibration testall-attitude flight testasymmetric loads testsasymmetric wing sweep flight testsauto-guidance testsbefore-flight-rated testsbench testbiaxial fatigue testbird impact testbird ingestion testbird strike testbird strike testsburn-in testburst pressure testcatapult testscentrifugal load testcentrifuge testsclean configuration testclosed-loop testcockpit workload testcombined-systems testscompatibility testcomponent testscompression testcomputer-aided testconstant amplitude testcontinued takeoff testscontrol testconvergence testcooling testcrack-detection testscrash testcreep testcrush testscyclic testsdamage tolerance testdamage resistance testdeparture testdepressed-trajectory testdestruction testdevelopment testsdivergence testsdual-frequency testdurability testdynamometer testselectromagnetic interference testselectromagnetic-vulnerability testemergency survival testEMI testsendurance testengine reingestion testenvironmental testexploratory testsfatigue testflammability testflaps up landing testsflexure testflight clearance testflight simulation testsflight-by-flight fatigue testflight simulation fatigue testsflow field testsflow visualization testsflutter testflutter-proof testsflyover testsforce testsforced oscillation testsforeign object damage testfree oscillation testsfree spinning facility testsfree-flight testfree-to-roll testsfrequency response testsfrequency-sweep testfuel runout testfull-scale testground effect testground resonance testhandling qualities testshard-ride testheat testsheavyweight testhigh-angle-of-attack testshigh-alpha testhover testshover in-ground-effect testhover-in-ground testhovering testshumidity testsicing testimpact testin-plant testsinput-to-output testsiron bird testslanding testlanding flap testslife roll testlimit cycle testslimited-envelope flight testload-deflection testlogic testlow-observability testmaneuvering testsmanual flight testsmodal testmodal survey testmode interaction testsmodel tests of airfoilsmoire interferometry testsnoise testnondestructive testnormal takeoff testsNyquist stability testopen-loop testsoperability testoscillatory testsoverland testsoxygen testsperformance testpilot-in-loop testsplenum-chamber burning testspost-flight testpreflight testpressure testpressurization testproof-lood testproof-of-concept testsradar cross-section testradiographic testrain testramp testsrate of climb testrejected takeoff testreliability testremote-site testrepair testresidual strength testresonance testsreverse-thrust testsrig testrobustness testroll-on-rim testrolling testrotary-balance testsrough ground profile testshake testshakedown testshear testsideslip testssimulation verification testsimulator testsmall-scale testsmoke testspin testsspray ingestion teststability teststall testsstatic testsstatic strength teststeady rolling testssteady state teststealth teststiffness teststore compatibility teststrength testsstructural testssupercritical testsystem integration testtail on/off teststakeoff testtaxy testtensile testtension testtethered testtowing testtransfer function testsvalidation testsvectored thrust testvibration testvulnerability testwater-tank testwaveoff testswheel testwhirl testwind blast testwind tunnel testwing-fatigue testwingborne mode flight testyaw oscillation testszero-speed-zero-altitude testzero-zero test -
114 force
сила; усилие; см. тж. effort; pl. ( войсковые) соединения или части; ( вооружённые) силы; вынуждатьAir Fleet Marine forces, Atlantic — авиация морской пехоты Атлантического флота ВМС США
Air Material force, Pacific area — армия материально-технического обеспечения ВВС США в тихоокеанской зоне
air-combat forces, naval aviation — боевые силы авиации ВМС
Allied Air forces, Central Europe — объединённые ВВС НАТО на центрально-европейском театре
Allied Air forces, Eastern Atlantic area — объединённые ВВС НАТО в восточной части Атлантики
Allied Air forces, Northern Europe — объединённые ВВС НАТО на североевропейском театре
Allied Air forces, Southern Europe — объединённые ВВС НАТО на южноевропейском театре
composite air strike force — смешанная оперативная ударная группа [соединение] ВВС
control force per unit of normal acceleration — расход усилий (на органах управления) на единицу нормальной перегрузки [нормального ускорения]
control system breakout force — сила [усилие] страгивания системы управления, усилие для преодоления трения покоя в проводке управления
force due to Q — усилие, создаваемое скоростным напором
Middle East Air force — Бр. ВВС на Среднем Востоке
Royal Auxiliary Air force — Бр. вспомогательные ВВС
stick force per «g» — градиент усилий на ручке по перегрузке
wheel brake decelerating force — сила торможения, развиваемая колёсами
— G force— Q force— q force— - trim force -
115 mass
— air mass -
116 nozzle
сопло; форсунка; насадок; раскрыв ( излучателя)attitude control (system) nozzle — струйник [струйный руль, сопло] газодинамической системы ориентации
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117 Leonardo da Vinci
[br]b. 15 April 1452 Vinci, near Florence, Italy,d. 2 May 1519 St Cloux, near Amboise, France.[br]Italian scientist, engineer, inventor and artist.[br]Leonardo was the illegitimate son of a Florentine lawyer. His first sixteen years were spent with the lawyer's family in the rural surroundings of Vinci, which aroused in him a lifelong love of nature and an insatiable curiosity in it. He received little formal education but extended his knowledge through private reading. That gave him only a smattering of Latin, a deficiency that was to be a hindrance throughout his active life. At sixteen he was apprenticed in the studio of Andrea del Verrochio in Florence, where he received a training not only in art but in a wide variety of crafts and technical arts.In 1482 Leonardo went to Milan, where he sought and obtained employment with Ludovico Sforza, later Duke of Milan, partly to sculpt a massive equestrian statue of Ludovico but the work never progressed beyond the full-scale model stage. He did, however, complete the painting which became known as the Virgin of the Rocks and in 1497 his greatest artistic achievement, The Last Supper, commissioned jointly by Ludovico and the friars of Santa Maria della Grazie and painted on the wall of the monastery's refectory. Leonardo was responsible for the court pageants and also devised a system of irrigation to supply water to the plains of Lombardy. In 1499 the French army entered Milan and deposed Leonardo's employer. Leonardo departed and, after a brief visit to Mantua, returned to Florence, where for a time he was employed as architect and engineer to Cesare Borgia, Duke of Romagna. Around 1504 he completed another celebrated work, the Mona Lisa.In 1506 Leonardo began his second sojourn in Milan, this time in the service of King Louis XII of France, who appointed him "painter and engineer". In 1513 Leonardo left for Rome in the company of his pupil Francesco Melzi, but his time there was unproductive and he found himself out of touch with the younger artists active there, Michelangelo above all. In 1516 he accepted with relief an invitation from King François I of France to reside at the small château of St Cloux in the royal domain of Amboise. With the pension granted by François, Leonardo lived out his remaining years in tranquility at St Cloux.Leonardo's career can hardly be regarded as a success or worthy of such a towering genius. For centuries he was known only for the handful of artistic works that he managed to complete and have survived more or less intact. His main activity remained hidden until the nineteenth and twentieth centuries, during which the contents of his notebooks were gradually revealed. It became evident that Leonardo was one of the greatest scientific investigators and inventors in the history of civilization. Throughout his working life he extended a searching curiosity over an extraordinarily wide range of subjects. The notes show careful investigation of questions of mechanical and civil engineering, such as power transmission by means of pulleys and also a form of chain belting. The notebooks record many devices, such as machines for grinding and polishing lenses, a lathe operated by treadle-crank, a rolling mill with conical rollers and a spinning machine with pinion and yard divider. Leonardo made an exhaustive study of the flight of birds, with a view to designing a flying machine, which obsessed him for many years.Leonardo recorded his observations and conclusions, together with many ingenious inventions, on thousands of pages of manuscript notes, sketches and drawings. There are occasional indications that he had in mind the publication of portions of the notes in a coherent form, but he never diverted his energy into putting them in order; instead, he went on making notes. As a result, Leonardo's impact on the development of science and technology was virtually nil. Even if his notebooks had been copied and circulated, there were daunting impediments to their understanding. Leonardo was left-handed and wrote in mirror-writing: that is, in reverse from right to left. He also used his own abbreviations and no punctuation.At his death Leonardo bequeathed his entire output of notes to his friend and companion Francesco Melzi, who kept them safe until his own death in 1570. Melzi left the collection in turn to his son Orazio, whose lack of interest in the arts and sciences resulted in a sad period of dispersal which endangered their survival, but in 1636 the bulk of them, in thirteen volumes, were assembled and donated to the Ambrosian Library in Milan. These include a large volume of notes and drawings compiled from the various portions of the notebooks and is now known as the Codex Atlanticus. There they stayed, forgotten and ignored, until 1796, when Napoleon's marauding army overran Italy and art and literary works, including the thirteen volumes of Leonardo's notebooks, were pillaged and taken to Paris. After the war in 1815, the French government agreed to return them but only the Codex Atlanticus found its way back to Milan; the rest remained in Paris. The appendix to one notebook, dealing with the flight of birds, was later regarded as of sufficient importance to stand on its own. Four small collections reached Britain at various times during the seventeenth and eighteenth centuries; of these, the volume in the Royal Collection at Windsor Castle is notable for its magnificent series of anatomical drawings. Other collections include the Codex Leicester and Codex Arundel in the British Museum in London, and the Madrid Codices in Spain.Towards the end of the nineteenth century, Leonardo's true stature as scientist, engineer and inventor began to emerge, particularly with the publication of transcriptions and translations of his notebooks. The volumes in Paris appeared in 1881–97 and the Codex Atlanticus was published in Milan between 1894 and 1904.[br]Principal Honours and Distinctions"Premier peintre, architecte et mécanicien du Roi" to King François I of France, 1516.Further ReadingE.MacCurdy, 1939, The Notebooks of Leonardo da Vinci, 2 vols, London; 2nd edn, 1956, London (the most extensive selection of the notes, with an English translation).G.Vasari (trans. G.Bull), 1965, Lives of the Artists, London: Penguin, pp. 255–271.C.Gibbs-Smith, 1978, The Inventions of Leonardo da Vinci, Oxford: Phaidon. L.H.Heydenreich, Dibner and L. Reti, 1981, Leonardo the Inventor, London: Hutchinson.I.B.Hart, 1961, The World of Leonardo da Vinci, London: Macdonald.LRD / IMcN -
118 Roberts, Richard
[br]b. 22 April 1789 Carreghova, Llanymynech, Montgomeryshire, Walesd. 11 March 1864 London, England[br]Welsh mechanical engineer and inventor.[br]Richard Roberts was the son of a shoemaker and tollkeeper and received only an elementary education at the village school. At the age of 10 his interest in mechanics was stimulated when he was allowed by the Curate, the Revd Griffith Howell, to use his lathe and other tools. As a young man Roberts acquired a considerable local reputation for his mechanical skills, but these were exercised only in his spare time. For many years he worked in the local limestone quarries, until at the age of 20 he obtained employment as a pattern-maker in Staffordshire. In the next few years he worked as a mechanic in Liverpool, Manchester and Salford before moving in 1814 to London, where he obtained employment with Henry Maudslay. In 1816 he set up on his own account in Manchester. He soon established a reputation there for gear-cutting and other general engineering work, especially for the textile industry, and by 1821 he was employing about twelve men. He built machine tools mainly for his own use, including, in 1817, one of the first planing machines.One of his first inventions was a gas meter, but his first patent was obtained in 1822 for improvements in looms. His most important contribution to textile technology was his invention of the self-acting spinning mule, patented in 1825. The normal fourteen-year term of this patent was extended in 1839 by a further seven years. Between 1826 and 1828 Roberts paid several visits to Alsace, France, arranging cottonspinning machinery for a new factory at Mulhouse. By 1826 he had become a partner in the firm of Sharp Brothers, the company then becoming Sharp, Roberts \& Co. The firm continued to build textile machinery, and in the 1830s it built locomotive engines for the newly created railways and made one experimental steam-carriage for use on roads. The partnership was dissolved in 1843, the Sharps establishing a new works to continue locomotive building while Roberts retained the existing factory, known as the Globe Works, where he soon after took as partners R.G.Dobinson and Benjamin Fothergill (1802–79). This partnership was dissolved c. 1851, and Roberts continued in business on his own for a few years before moving to London as a consulting engineer.During the 1840s and 1850s Roberts produced many new inventions in a variety of fields, including machine tools, clocks and watches, textile machinery, pumps and ships. One of these was a machine controlled by a punched-card system similar to the Jacquard loom for punching rivet holes in plates. This was used in the construction of the Conway and Menai Straits tubular bridges. Roberts was granted twenty-six patents, many of which, before the Patent Law Amendment Act of 1852, covered more than one invention; there were still other inventions he did not patent. He made his contribution to the discussion which led up to the 1852 Act by publishing, in 1830 and 1833, pamphlets suggesting reform of the Patent Law.In the early 1820s Roberts helped to establish the Manchester Mechanics' Institute, and in 1823 he was elected a member of the Literary and Philosophical Society of Manchester. He frequently contributed to their proceedings and in 1861 he was made an Honorary Member. He was elected a Member of the Institution of Civil Engineers in 1838. From 1838 to 1843 he served as a councillor of the then-new Municipal Borough of Manchester. In his final years, without the assistance of business partners, Roberts suffered financial difficulties, and at the time of his death a fund for his aid was being raised.[br]Principal Honours and DistinctionsMember, Institution of Civil Engineers 1838.Further ReadingThere is no full-length biography of Richard Roberts but the best account is H.W.Dickinson, 1945–7, "Richard Roberts, his life and inventions", Transactions of the Newcomen Society 25:123–37.W.H.Chaloner, 1968–9, "New light on Richard Roberts, textile engineer (1789–1864)", Transactions of the Newcomen Society 41:27–44.RTS -
119 Robinson, George J.
SUBJECT AREA: Textiles[br]b. 1712 Scotlandd. 1798 England[br]Scottish manufacturer who installed the first Boulton \& Watt rotative steam-engine in a textile mill.[br]George Robinson is said to have been a Scots migrant who settled at Burwell, near Nottingham, in 1737, but there is no record of his occupation until 1771, when he was noticed as a bleacher. By 1783 he and his son were describing themselves as "merchants and thread manufacturers" as well as bleachers. For their thread, they were using the system of spinning on the waterframe, but it is not known whether they held a licence from Arkwright. Between 1776 and 1791, the firm G.J. \& J.Robinson built a series of six cotton mills with a complex of dams and aqueducts to supply them in the relatively flat land of the Leen valley, near Papplewick, to the north of Nottingham. By careful conservation they were able to obtain considerable power from a very small stream. Castle mill was not only the highest one owned by the Robinsons, but it was also the highest mill on the stream and was fed from a reservoir. The Robinsons might therefore have expected to have enjoyed uninterrupted use of the water, but above them lived Lord Byron in his estate of Newstead Priory. The fifth Lord Byron loved making ornamental ponds on his property so that he could have mock naval battles with his servants, and this tampered with the water supplies so much that the Robinsons found they were unable to work their mills.In 1785 they decided to order a rotative steam engine from the firm of Boulton \& Watt. It was erected by John Rennie; however, misfortune seemed to dog this engine, for parts went astray to Manchester and when the engine was finally running at the end of February 1786 it was found to be out of alignment so may not have been very successful. At about the same time, the lawsuit against Lord Byron was found in favour of the Robinsons, but the engine continued in use for at least twelve years and was the first of the type which was to power virtually all steamdriven mills until the 1850s to be installed in a textile mill. It was a low-pressure double-acting condensing beam engine, with a vertical cylinder, parallel motion connecting the piston toone end of a rocking beam, and a connecting rod at the other end of the beam turning the flywheel. In this case Watt's sun and planet motion was used in place of a crank.[br]Further ReadingR.L.Hills, 1970, Power in the Industrial Revolution, Manchester (for an account of the installation of this engine).D.M.Smith, 1965, Industrial Archaeology of the East Midlands, Newton Abbot (describes the problems which the Robinsons had with the water supplies to power their mills).S.D.Chapman, 1967, The Early Factory Masters, Newton Abbot (provides details of the business activities of the Robinsons).J.D.Marshall, 1959, "Early application of steam power: the cotton mills of the Upper Leen", Transactions of the Thoroton Society of Nottinghamshire 60 (mentions the introduction of this steam-engine).RLH -
120 Whitworth, Sir Joseph
[br]b. 21 December 1803 Stockport, Cheshire, Englandd. 22 January 1887 Monte Carlo, Monaco[br]English mechanical engineer and pioneer of precision measurement.[br]Joseph Whitworth received his early education in a school kept by his father, but from the age of 12 he attended a school near Leeds. At 14 he joined his uncle's mill near Ambergate, Derbyshire, to learn the business of cotton spinning. In the four years he spent there he realized that he was more interested in the machinery than in managing a cotton mill. In 1821 he obtained employment as a mechanic with Crighton \& Co., Manchester. In 1825 he moved to London and worked for Henry Maudslay and later for the Holtzapffels and Joseph Clement. After these years spent gaining experience, he returned to Manchester in 1833 and set up in a small workshop under a sign "Joseph Whitworth, Tool Maker, from London".The business expanded steadily and the firm made machine tools of all types and other engineering products including steam engines. From 1834 Whitworth obtained many patents in the fields of machine tools, textile and knitting machinery and road-sweeping machines. By 1851 the company was generally regarded as the leading manufacturer of machine tools in the country. Whitworth was a pioneer of precise measurement and demonstrated the fundamental mode of producing a true plane by making surface plates in sets of three. He advocated the use of the decimal system and made use of limit gauges, and he established a standard screw thread which was adopted as the national standard. In 1853 Whitworth visited America as a member of a Royal Commission and reported on American industry. At the time of the Crimean War in 1854 he was asked to provide machinery for manufacturing rifles and this led him to design an improved rifle of his own. Although tests in 1857 showed this to be much superior to all others, it was not adopted by the War Office. Whitworth's experiments with small arms led on to the construction of big guns and projectiles. To improve the quality of the steel used for these guns, he subjected the molten metal to pressure during its solidification, this fluid-compressed steel being then known as "Whitworth steel".In 1868 Whitworth established thirty annual scholarships for engineering students. After his death his executors permanently endowed the Whitworth Scholarships and distributed his estate of nearly half a million pounds to various educational and charitable institutions. Whitworth was elected an Associate of the Institution of Civil Engineers in 1841 and a Member in 1848 and served on its Council for many years. He was elected a Member of the Institution of Mechanical Engineers in 1847, the year of its foundation.[br]Principal Honours and DistinctionsBaronet 1869. FRS 1857. President, Institution of Mechanical Engineers 1856, 1857 and 1866. Hon. LLD Trinity College, Dublin, 1863. Hon. DCL Oxford University 1868. Member of the Smeatonian Society of Civil Engineers 1864. Légion d'honneur 1868. Society of Arts Albert Medal 1868.Bibliography1858, Miscellaneous Papers on Mechanical Subjects, London; 1873, Miscellaneous Papers on Practical Subjects: Guns and Steel, London (both are collections of his papers to technical societies).1854, with G.Wallis, The Industry of the United States in Machinery, Manufactures, andUseful and Ornamental Arts, London.Further ReadingF.C.Lea, 1946, A Pioneer of Mechanical Engineering: Sir Joseph Whitworth, London (a short biographical account).A.E.Musson, 1963, "Joseph Whitworth: toolmaker and manufacturer", Engineering Heritage, Vol. 1, London, 124–9 (a short biography).D.J.Jeremy (ed.), 1984–6, Dictionary of Business Biography, Vol. 5, London, 797–802 (a short biography).W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford (describes Whitworth's machine tools).RTS
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