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1 crank-up tower
выдвижная мачта( антенны) с подъемным механизмомБольшой англо-русский и русско-английский словарь > crank-up tower
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2 crank-up tower
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3 crank-up tower
1) Техника: выдвижная мачта с подъёмным механизмом (антенны)2) Макаров: выдвижная мачта антенны с подъёмным механизмом -
4 tower
2) горн. башенный копёр3) пилон5) хим. колонна6) ж.-д. пост•-
absorption tower
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acid tower
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aeration tower
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aerodrome control tower
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aligning tower
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alkaline tower
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alkylate rerun tower
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anchor tower
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anemometer tower
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angle suspension tower
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angle tower
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angle-tension tower
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antenna tower
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atmospheric cooling tower
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atmospheric flash tower
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baby tower
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baffle tower
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batch tower
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batter-leg tower
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boom tower
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bubble cap tower
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bubble plate tower
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carbonating tower
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centrifugal spray tower
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chainette tower
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chemical tower
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circus tower
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clay tower
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coke-packed tower
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condensate expansion tower
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conveyor-support tower
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cooling tower
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crank-up tower
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crest tower
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cross rope suspension tower
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crossflow water cooling tower
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cyclonic spray tower
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dead-end tower
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depropanizing tower
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derrick tower
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diffusion tower
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double-circuit tower
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double-flow water cooling tower
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drill tower
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dry intake tower
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dry spinning tower
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electron bombardment evaporation tower
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elevator tower
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evaporation tower
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evaporative cooling tower
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extending tower
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falling bead dry cooling tower
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fan cooling tower
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flare tower
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flash tower
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flexible steel tower
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floodlight tower
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folding tower
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forced draft cooling tower
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fuel-oil flash tower
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gas stripping tower
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gate tower
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graduation tower
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Gray tower
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guyed tower
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guyed V-tower
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hoist tower
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H-tower
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hump tower
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hydraulic foam tower
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hyperbolic cooling tower
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hyperbolic tower
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induced-draft tower
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intake tower
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integrated tower
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interlocking control tower
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interlocking tower
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knockout tower
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lattice tower
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leaching tower
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lime rock tower
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line tower
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looping pit tower
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looping tower
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mechanical-draft cooling tower
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mechanical cooling tower
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metal tower
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mud-cooling tower
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multiple-draw fractionating tower
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multistage tower
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natural draft cooling tower
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offshore tower
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open water cooling tower
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outlet tower
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overflow tower
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oxidizing tower
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packed cooling tower
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perforated-plate tower
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pop-up tower
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power transmission tower
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pressure flash tower
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quenching tower
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radio tower
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reciprocating plate pulsed tower
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reciprocating plate tower
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recooling tower
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rectification tower
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reflow tower
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reflux tower
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refrigerating cooling tower
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retarder tower
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rigid tower
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saturated liquor cooling tower
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scrubber wash tower
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self-erecting tower
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self-supporting tower
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shaft tower
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shunting tower
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side-supported tower
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signal tower
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single-circuit tower
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sinking tower
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smoke tower
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soda wash tower
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solvent-extraction tower
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solvent tower
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spray cooling tower
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spray tower
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stayed tower
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steel tower
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storage tower
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strain tower
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surge tower
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suspension tower
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tank tower
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telescopic tower
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television tower
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terminal tower
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topping tower
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traffic control tower
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transmission tower
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transposition tower
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tubular tower
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turbine tower
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twin-circuit tower
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two-circuit tower
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vacuum deaeration tower
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washing tower
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water cooling tower
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water tower
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wet intake tower
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wetted-wall tower -
5 gear
1) = idle reverse pinion2) шестерня; зубчатая передача; зубчатое колесо; большое зубчатое колесо пары; привод (напр. тяги, рычага); передаточный механизм; приспособление; устройство; механизм (с зубчатыми передачами или без них); инструмент; II приводить в движение механизм; сцепляться- gear box- gear change hand lever - gear change shift fork - gear changing - gear changing by foot - gear clearance - gear guard - gear into - gear lift - gear nobbing machine - gear hub - gear lapping machine - gear lever - gear lever interlock - gear lever lock - gear lock - gear measuring machine - gear milling machine - gear noise - gear oil pump - gear operating shaft - gear parts - gear pinion - gear puller - gear pump - gear quadrant - gear rack - gear range - gear ratio - gear reduction - gear reduction rate - gear reduction unit - gear rim - gear ring - gear scoring - gear set - gear set case - gear shaft - gear shaping - gear shaping machine - gear shaving machine - gear shift - gear shift bar - gear shift bar selector - gear shift gate - gear shift lever - gear shift mechanism - gear shift tower - gear shifter - gear shifter shaft lock - gear shifter shaft lock ball - gear shifter shaft lock plunger - gear shifter shaft lock spring - gear shifting - gear shifting diagram - gear shifting fork - gear shifting gate - gear shifting lever - gear shifting quadrant - gear side movement - gear teeth - gear teeth lapping machine - gear tester - gear testing machine - gear tooth contact - gear tooth depth gauge - gear tooth vernier caliper - gear train - gear up - gear wheel - gear with tooth correction - gear withdrawer - in gear - lock in gear - out of gear - put into gear - throw into gear - throw out of gear- cam gear- cone friction gear - coupling gear - crane travelling gear - cut gear - cycloidal gear - discriminating gear - double wheel gear - draw-off gear - elliptical gear - elliptical gear-wheel - encased gear - encased back gear - face gear - feed gear - friction draft gear - friction draught gear - globoidal worm gear - grip gear - ground gear - hand gear - hand steering gear - helical gear - herring-bone gear - high gear - high-ratio gear - Hindley worm gear - hoisting gear - hour-glass worm gear - hydraulic gear - hyperbolical gear - hyperboloidal gear - hypoid gear - idle gear - idler gear - idler reverse gear - index gear - indicator gear - increase gear - interchangeable gears - interlocking gear - intermediate gear - intermittent gear - internal gear - internal spur gear - involute gear - irreversible gear - knocking gear - knuckle gear - lantern gear - lever barring gear - lifting gear - link gear - lock gear - locking gear - longitudinal feed gear - low gear - lubricating gear - lufting gear - magnetic gear - main gear - mangle gear - master gear - metric gear - mid gear - middle gear - module gear - mitre gear - multiplying gear - mutual interlocking gear - non-circular spur gear - octoid bevel gear - oil gear - oil splash gear - oleo gear - operating gear - oscillating cam gear - parallelogram valve gear - pedal gear - pick-off gear - pin gear - pinion gear - pin-wheel gear - piston valve gear - planet gear - planetary gear - point gear - poppet valve gear - positive valve gear - power gear - propeller gear - pulley gear - quick-change gear - quiet gear - quill gear - rack-and-pinion gear - rack feed gear - ratchet gear - readjusting gear - recording gear - reducing gear - reduction gear - reference gear - reference gear-wheel - release gear - remote-control gear - reverse gear - reversing gear - ring gear - rod gear - rotation gear - running gear - saddle gear - safety gear - safety gripping gear - sanding gear - satellite gear - screw gear - scroll gear - segment gear - segmental gear - selective gear - selector gear - self-changing gear - self-locking gear - self-stopping gear - single-curve gear - skew gear - skew bevel gear - slew gear - slewing gear - sliding gear - slip gear - speed-change gear - speed-increasing gear - spiral gear - spiral bevel gear - split gear - spool gear - sprocket gear - spur gear - starting gear - stop gear - straight bevel gear - striking gear - sun gear - sun-and-planet gear - supplementary gear box - swivel gear - synchronizing gear - tappet gear - three-axle gear - throw-over gear - thrust gear - timing gear - tipping gear - tooth gear - towing gear - trailer gear - transmission gear - traverse gear - traversing gear - trigger gear - trip gear - triple-change gear - triple helical gear - tripping gear - tumbler gear - tumbling gear - turning gear - twisted gear - two-speed gear - uncoupling gear - V-gear - valve gear - variable-speed gear - wedge friction gear - wheel gear - whipping gear - winding gear - worm gear - worm barring gear -
6 body
2) корпус3) станина4) бочка ( прокатного валка)5) ж.-д., авто кузов6) возд. фюзеляж8) подложка10) консистенция, экстрактивность, вязкость11) сухой остаток12) кроющая способность (краски, лака)13) полигр. текстовый блок; текстовая часть ( издания)15) "тело" ( вина); упругость, сжимаемость ( мякиша хлеба)17) мн. ч. пищ. посторонняя примесь•to incline body to motion — приводить тело в движение;-
aeriform body
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all-around infinite body
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all-metal body
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angle cock body
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automotive body
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axle body
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axlebox body
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barrel body
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bearing body
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bluff body
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body of ballast
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body of dam
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body of flame
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body of masonry
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body of paint
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body of revolution
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body of roll
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body of rotation
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body of varnish
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bolt body
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bottle body
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box body
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box-sectioned wrap-around ribs body
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bulk body
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camera body
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car body
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cargo body
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carrier body
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cartridge body
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cask body
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cellular body
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compound body
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connector body
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contacting bodies
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convertible body
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crank body
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curled body
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cylinder body
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deformable body
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delivery valve body
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drop side body
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dual-slope body
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elastic body
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elasto-plastic body
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epitaxial body
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evaporator body
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exhaust heated body
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false body
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field body
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fireclay body
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flame body
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fluid body
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fore body
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foreign body
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free body
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fuse body
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geometric body
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glass-ceramic body
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green body
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grinding bodies
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guard body
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gunning body
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heating body
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heterogeneous body
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homogeneous body
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integral body
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isothermal body
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isotropic body
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iteration body
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ladle body
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light-alloy coach body
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loop body
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lorry body
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low drag body
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main body of camera
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material body
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micropolar body
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middle body
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mill body
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molded body
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nonfired body
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notched body
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nozzle body
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oil body
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ore body
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oscillating body for oceanographic measurements
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package body
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parallel middle body
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perfectly rigid body
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plastic body
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plow body
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pole body
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ponton body
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procedure body
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program body
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refractory body
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refuse collection body
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rigid body
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robot body
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rotor body
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rough body
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semiconductive body
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shuttle body
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side extended body
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side-dump body
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silicon body
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sintered body
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smooth body
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solid body
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soundproof body
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standard body
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statement body
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streamlined body
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stressed body
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stripped body
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stuffing-box body
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thick juice body
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thin juice body
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tipping body
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tower body
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truck body
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type body
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unitary body
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valve body
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V-bottom body
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viscoelastic body
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vitrified body
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water body
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wedge shaped body
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wide-angled body
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workholder's body -
7 control
1) контроль
2) контрольный
3) обоснование
4) обосновывать
5) оперативный
6) регулировать
7) регулировочный орган
8) совладать
9) управление
10) управляемость
11) управляющий
12) штурвальный
13) регулировка
14) управлять
15) проверять
16) регулирование
17) инструкция
18) исполнительный
19) контролировать
20) проверка
21) проверочный
22) регулирующий
– absence of control
– air traffic control
– air-traffic control
– analysis is in control
– anticipatory control
– arc control device
– association control
– attenuation control
– attitude control
– automatic control
– autonomous control
– autothrottle control
– bang-bang control
– be in control
– be out of control
– bin control gate
– brightness control
– bucket tip control
– bulge control
– centralized control
– closed-cycle control
– complete control
– context control
– continuous control
– contrast control
– control accuracy
– control action
– control actuator
– control agent
– control air
– control algorithm
– control amplifier
– control and display
– control assembly
– control beam
– control bus
– control button
– control cabinet
– control cable
– control cam
– control center
– control channel
– control character
– control characteristic
– control circuit
– control code
– control column
– control combination
– control computer
– control crank
– control criterion
– control current
– control cylinder
– control data
– control desk
– control electrode
– control electronics
– control element
– control equipment
– control factor
– control flutter
– control force
– control function
– control gate
– control gear
– control graphitization
– control instruction
– control jet
– control joint
– control key
– control knob
– control lag
– control lever
– control limit
– control linkages
– control links
– control loop
– control magnet
– control means
– control mode
– control module
– control motor
– control of airplane
– control office
– control operation
– control panel
– control pedal
– control position
– control problem
– control pulse
– control range
– control reactor
– control register
– control relay
– control response
– control room
– control shaft
– control spin
– control statement
– control stick
– control surface
– control survey
– control switch
– control temperature
– control theory
– control track
– control transistor
– control unit
– control vector
– control voltage
– control weeds
– control winding
– control wiring
– corrosion control
– dash control
– data control
– derivative control
– digital control
– direct control
– distance control
– disturbance-compensating control
– dive-recovery control
– duplicate control
– dust control
– ease of control
– elevator control
– emergency control
– end-point control
– engine control
– environment control
– error control
– error-closing control
– exclusive control
– extension of control
– feed control
– feed-back control
– feedback control
– filament control
– fine control
– fire control
– flight control
– floating control
– flood control
– flow-rate control
– focus control
– frequency control
– front-panel control
– gain control
– ganged control
– geodetic control
– go out of control
– ground control
– gyrorudder control
– hand control
– headwater control
– height control
– hierarchical control
– in-process control
– independent control
– indirect control
– industrial control
– input-output control
– integral control
– interacting control
– intermittent control
– inventory control
– jet control
– job control language
– layout of control
– leather control
– level control
– linearity control
– load control
– local control
– lose control
– loss of control
– manual control
– master control
– meduim-access control
– meduim-access control
– mission control
– multicircuit control
– noise control
– numerical control
– off-line control
– on-line control
– on-off control
– open-loop control
– operating control
– optimal control
– optimization control
– out of control
– pass control
– path control
– path of control
– pedal control
– pest control
– phase control
– phase-lock control
– piano-key control
– plan control
– point of control
– point-to-point control
– power-assisted control
– product control
– program control
– programmed control
– proportional control
– proportional-plus-floating control
– push-button control
– pushbutton control
– quality control
– radio control
– ramp control
– reaction control
– recovery control
– regain control
– register control
– remotability of control
– remote control
– roll control
– rudder control
– run-off control
– sampled-data control
– segregate control
– selectivity control
– self-acting control
– sensitivity control
– servo control
– slide control
– slope control
– statistical control
– steering control
– supervisory control
– take control
– technical control
– temperature control
– throttle control
– tone control
– touch control
– traffic control
– tuning control
– vertical control
– vibration control
– voice-activated control
– volume control
aerodynamic control surface — руль управления аэродинамический
automatic control equipment — аппаратура автоматического управления
automatic frequency control — частотная АПЧ, автоматическая настройка частоты
automatic gain control — <tech.> регулировка усиления автоматическая
automatic remote control — <comput.> телеавтоматика
automatic voltage control — регулирование напряжения автоматическое
bang-bang control system — <comput.> система управления релейная
cancelling control button — < railways> кнопка отмены
centralized traffic control — < railways> централизация
conditional transfer of control — условная передача управления
control aisle of a substation — коридор управления подстанции
control in pitch of airplane — продольное управление самолетом
control point adjustment — настройка точки регулирования, <engin.> задатчик
control tower service — <aeron.> служба диспетчерская
coordinated phosphate control — коррекционная обработка воды
differential control method — дифференцированный метод контроля
dispatcher's supervisory control — телеуправление диспетчерское
fire control computer — счетно-решающее устройство для управления артиллерийским огнем
fire control director — прибор управления артиллерийским огнем
floating control mode — <comput.> способ регулирования астатический
intermittent gain control — < radio> регулировка усиления временная
lateral control of airplane — поперечное управление самолетом
microprocessor control system — микропроцессорная система управления
pressure control instrument — <tech.> маностат
proportional control factor — <comput.> коэффициент пропорционального регулирования
range finder control — <geod.> метод дальномерно-базисный
reactor control system — <engin.> система управления и защиты
remote control interlocking — < railways> телецентрализация, централизация дистанционная
river control structure — <geol.> сооружение выправительное
servo control unit — <engin.> гидроусилитель
spray-type superheat control — впрысковое регулирование перегрева
supervisory control system — <comput.> автодиспетчер
thermostatic temperature control — ключевое термостатирование
volume range control — регулирование динамического диапазона
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8 ♦ bell
♦ bell (1) /bɛl/n.1 campana; campanello; campanaccio; sonaglio: church bells, campane di chiesa; (naut.) ship's bell, campana di bordo; bicycle bell, campanello di bicicletta; warning bell, campanello di allarme; to ring the bell, suonare il campanello2 rintocco; tocco; suono di campana3 suono di campanello; squillo: after the bell, ( a scuola) dopo che è suonato il campanello; alla fine della lezione5 (preceduto da un numero) (naut.) rintocco (della campana di bordo, che suona ogni mezz'ora): at three bells in the middle watch, ai tre rintocchi della seconda comandata ( ossia all'una e mezza di notte); eight bells, gli otto rintocchi ( inizio di un turno di guardia)6 (biol.) organo campanulato● (archit.) bell arch, arco a campana □ (fam.) bells and whistles, accessori; ammennicoli; fronzoli □ (relig. e fig.) bell, book and candle, scomunica □ bell-bottom trousers (o bell-bottoms), pantaloni a zampa d'elefante □ (naut.) bell-buoy, boa a campana □ ( USA) bell captain, capofattorino d'albergo □ bell clapper, batacchio di campana □ (mecc.) bell crank (lever), leva a squadra □ (mat., stat.) bell curve, curva a campana □ bell glass, campana di vetro □ bell jar, campana di vetro ( anche fig.) □ bell metal, bronzo per campane □ bell pull, cordone (o maniglia) di campanello □ bell push, bottone (o pulsante) di campanello □ bell-ringer, campanaro; ( slang USA) venditore porta a porta; ( anche) galoppino elettorale □ bell-ringing, il suonare le campane (spec. in gruppo); l'arte di suonare le campane (o del campanaro) □ bell-shaped, a campana; scampanato; svasato; (scient.) campaniforme □ bell tent, tenda a cono □ bell tower, torre campanaria; campanile □ (fam. GB) born within the sound of Bow Bells, londinese autentico, cockney autentico (nato nel cuore di Londra, fin dove si possono sentire le campane della chiesa di St Mary-le-Bow) □ (fam. GB) to give sb. a bell, dare un colpo di telefono a q.; fare uno squillo a q. □ to ring a bell, non giungere nuovo; essere vagamente familiare; dire qualcosa: Doesn't this name ring a bell?, questo nome non ti dice qualcosa? □ ( slang) to ring sb. 's bell, essere sessualmente attraente; tirare (pop.) □ ( slang USA) to ring the bell, essere quello che ci vuole; essere l'ideale; volerci proprio □ saved by the bell, salvato in extremis □ (fam. USA) with bells on, eccome; certamente; entusiasticamente.bell (2) /bɛl/n.(to) bell (1) /bɛl/A v. t.2 scampanare; allargare a campana3 (fam. GB) dare un colpo di telefono a; fare uno squillo aB v. i.● to bell the cat, prendere su di sé un rischio; rischiare per tutti.(to) bell (2) /bɛl/v. i. -
9 two
два; двойка- two-arm caliper - two-armed manipulator - two-axis accelerometer - two-axis coupling - two-axis deflector - two-axis excitation - two-axis fork head - two-axis loading - two-axis pivote mirror - two-axis robot - two-axle bodywork - two-axle bogie - two-axle car - two-axle drawbar trailer - two-axle scraper - two-axle trailer - two-axle vehicle - two-ball machine - two-ball tester - two-bank - two-bladed fan - two-bottom plough - two-box car - two bridge caliper - two-can lacquer - two-chamber air reservoir - two-channel analyzer - two-channel switch - two-circuit tower - two component dynamometer - two-component glass - two-component liquid - two-component sensor - two-core cable - two-cycle - two-decker - two-degree-of-freedom suspension - two dimensional - two-dimensional cam - two-dimensional detector - two-dimensional flow - two-dimensional heat exchange - two-dimensional mirror - two-dimensional multishock compression - two-dimensional nozzle - two-dimensional sensor - two direction hydraulic motor - two-door hard top sedan - two-drum hoist - two-duck air-conditioning system - two-engine closed-loop gear - two-engine hydromechanical transmission - two-engined vehicle - two-finger - two-flap valve - two-flight stairs - two-flow economizer - two-fluid hydrodynamics - two-fold - two-forked - two-forty - two-gauge rosette - two-handed arm - two-head automatic arc-welding machine - two-head signal - two-high leveler - two-hinged arm - two jaw chuck - two-jawed - jawed chuck - two-lane - two-lane conveyor - two-lane highway - two-lane road - two-lane traffic - two-lane tunnel- two-leaf- two level model - two-light head lamp - two-part - two-phase supercharger - two-piece - two-piece wheel- two-row- two-seater - two-spark - two-spark ignition - two-speed drive - two-speed drive system - two-speed final drive - two-speed gearless transmission - two-speed wiper - two-speed transfer case - two-spoke steering wheel - two-spool compressor - two-stage accelerator - two-stage air cleaner - two-stage air heater - two-stage axial accelerator - two-stage carbureter - two-stage coating - two-stage compressor - two-stage controller - two-stage crushing - two-stage ejector - two-stage epicyclic reduction gear - two-stage filter element - two-stage gearbox - two-stage hoist - two-stage hydraulic filter - two-stage injection - two-stage injector - two-stage mast - two-stage precipitator - two-stage right-angle reducer - two-stage secondary suspension - two-stage separator - two-stage servosystem - two-stage valve - two-stand load station - two-start screw conveyor - two-start thread - two-step - two-step control - two-step controller - two-step detector - two-step mechanism -
10 Norton, Charles Hotchkiss
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 23 November 1851 Plainville, Connecticut, USAd. 27 October 1942 Plainville, Connecticut, USA[br]American mechanical engineer and machine-tool designer.[br]After an elementary education at the public schools of Plainville and Thomaston, Connecticut, Charles H.Norton started work in 1866 at the Seth Thomas Clock Company in Thomaston. He was soon promoted to machinist, and further progress led to his successive appointments as Foreman, Superintendent of Machinery and Manager of the department making tower clocks. He designed many public clocks.In 1886 he obtained a position as Assistant Engineer with the Brown \& Sharpe Manufacturing Company at Providence, Rhode Island, and was engaged in redesigning their universal grinding machine to give it more rigidity and make it more suitable for use as a production machine. In 1890 he left to become a partner in a newly established firm, Leland, Faulconer \& Norton Company at Detroit, Michigan, designing and building machine tools. He withdrew from this firm in 1895 and practised as a consulting mechanical engineer for a short time before returning to Brown \& Sharpe in 1896. There he designed a grinding machine incorporating larger and wider grinding wheels so that heavier cuts could be made to meet the needs of the mass-production industries, especially the automobile industry. This required a heavier and more rigid machine and greater power, but these ideas were not welcomed at Brown \& Sharpe and in 1900 Norton left to found the Norton Grinding Company in Worcester, Massachusetts. Here he was able to develop heavy-production grinding machines, including special machines for grinding crank-shafts and camshafts for the automobile industry.In setting up the Norton Grinding Company, Charles H.Norton received financial support from members of the Norton Emery Wheel Company (also of Worcester and known after 1906 as the Norton Company), but he was not related to the founder of that company. The two firms were completely independent until 1919 when they were merged. From that time Charles H.Norton served as Chief Engineer of the machinery division of the Norton Company, until 1934 when he became their Consulting Engineer.[br]Principal Honours and DistinctionsCity of Philadelphia, John Scott Medal 1925.BibliographyNorton was granted more than one hundred patents and was author of Principles of Cylindrical Grinding, 1917, 1921, Worcester, Mass.Further ReadingRobert S.Woodbury, 1959, History of the Grinding Machine, Cambridge, Mass, (contains biographical information and details of the machines designed by Norton).RTSBiographical history of technology > Norton, Charles Hotchkiss
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11 Trevithick, Richard
[br]b. 13 April 1771 Illogan, Cornwall, Englandd. 22 April 1833 Dartford, Kent, England[br]English engineer, pioneer of non-condensing steam-engines; designed and built the first locomotives.[br]Trevithick's father was a tin-mine manager, and Trevithick himself, after limited formal education, developed his immense engineering talent among local mining machinery and steam-engines and found employment as a mining engineer. Tall, strong and high-spirited, he was the eternal optimist.About 1797 it occurred to him that the separate condenser patent of James Watt could be avoided by employing "strong steam", that is steam at pressures substantially greater than atmospheric, to drive steam-engines: after use, steam could be exhausted to the atmosphere and the condenser eliminated. His first winding engine on this principle came into use in 1799, and subsequently such engines were widely used. To produce high-pressure steam, a stronger boiler was needed than the boilers then in use, in which the pressure vessel was mounted upon masonry above the fire: Trevithick designed the cylindrical boiler, with furnace tube within, from which the Cornish and later the Lancashire boilers evolved.Simultaneously he realized that high-pressure steam enabled a compact steam-engine/boiler unit to be built: typically, the Trevithick engine comprised a cylindrical boiler with return firetube, and a cylinder recessed into the boiler. No beam intervened between connecting rod and crank. A master patent was taken out.Such an engine was well suited to driving vehicles. Trevithick built his first steam-carriage in 1801, but after a few days' use it overturned on a rough Cornish road and was damaged beyond repair by fire. Nevertheless, it had been the first self-propelled vehicle successfully to carry passengers. His second steam-carriage was driven about the streets of London in 1803, even more successfully; however, it aroused no commercial interest. Meanwhile the Coalbrookdale Company had started to build a locomotive incorporating a Trevithick engine for its tramroads, though little is known of the outcome; however, Samuel Homfray's ironworks at Penydarren, South Wales, was already building engines to Trevithick's design, and in 1804 Trevithick built one there as a locomotive for the Penydarren Tramroad. In this, and in the London steam-carriage, exhaust steam was turned up the chimney to draw the fire. On 21 February the locomotive hauled five wagons with 10 tons of iron and seventy men for 9 miles (14 km): it was the first successful railway locomotive.Again, there was no commercial interest, although Trevithick now had nearly fifty stationary engines completed or being built to his design under licence. He experimented with one to power a barge on the Severn and used one to power a dredger on the Thames. He became Engineer to a project to drive a tunnel beneath the Thames at Rotherhithe and was only narrowly defeated, by quicksands. Trevithick then set up, in 1808, a circular tramroad track in London and upon it demonstrated to the admission-fee-paying public the locomotive Catch me who can, built to his design by John Hazledine and J.U. Rastrick.In 1809, by which date Trevithick had sold all his interest in the steam-engine patent, he and Robert Dickinson, in partnership, obtained a patent for iron tanks to hold liquid cargo in ships, replacing the wooden casks then used, and started to manufacture them. In 1810, however, he was taken seriously ill with typhus for six months and had to return to Cornwall, and early in 1811 the partners were bankrupt; Trevithick was discharged from bankruptcy only in 1814.In the meantime he continued as a steam engineer and produced a single-acting steam engine in which the cut-off could be varied to work the engine expansively by way of a three-way cock actuated by a cam. Then, in 1813, Trevithick was approached by a representative of a company set up to drain the rich but flooded silver-mines at Cerro de Pasco, Peru, at an altitude of 14,000 ft (4,300 m). Low-pressure steam engines, dependent largely upon atmospheric pressure, would not work at such an altitude, but Trevithick's high-pressure engines would. Nine engines and much other mining plant were built by Hazledine and Rastrick and despatched to Peru in 1814, and Trevithick himself followed two years later. However, the war of independence was taking place in Peru, then a Spanish colony, and no sooner had Trevithick, after immense difficulties, put everything in order at the mines then rebels arrived and broke up the machinery, for they saw the mines as a source of supply for the Spanish forces. It was only after innumerable further adventures, during which he encountered and was assisted financially by Robert Stephenson, that Trevithick eventually arrived home in Cornwall in 1827, penniless.He petitioned Parliament for a grant in recognition of his improvements to steam-engines and boilers, without success. He was as inventive as ever though: he proposed a hydraulic power transmission system; he was consulted over steam engines for land drainage in Holland; and he suggested a 1,000 ft (305 m) high tower of gilded cast iron to commemorate the Reform Act of 1832. While working on steam propulsion of ships in 1833, he caught pneumonia, from which he died.[br]BibliographyTrevithick took out fourteen patents, solely or in partnership, of which the most important are: 1802, Construction of Steam Engines, British patent no. 2,599. 1808, Stowing Ships' Cargoes, British patent no. 3,172.Further ReadingH.W.Dickinson and A.Titley, 1934, Richard Trevithick. The Engineer and the Man, Cambridge; F.Trevithick, 1872, Life of Richard Trevithick, London (these two are the principal biographies).E.A.Forward, 1952, "Links in the history of the locomotive", The Engineer (22 February), 226 (considers the case for the Coalbrookdale locomotive of 1802).See also: Blenkinsop, JohnPJGR
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