experimental design technology

experimental design technology

метод экспериментального проектирования

experimental design technology

метод экспериментального проектирования

technology

технология; техника (см. тж technique)

- antifuse technology

- bipolar technology
- computer technology
- computer/robotic technology
- computer-aided technology
- custom gate array technology
- cutting-edge technology
- data store technology
- experimental design technology
- expert system technology
- high technology
- information processing technology
- information technology
- large-scale integration technology
- LSI technology
- management technology
- mapping technology
- medium-scale integration technology
- MOS technology
- MSI technology
- OO technology
- planar technology
- privacy technology
- relational technology
- security technology
- silicon-on-board technology
- software technology
- thick-film technology
- thin-film technology
- translation memory technology
- workbench technology

метод экспериментального проектирования

experimental design technology

метод экспериментального проектирования

experimental design technology

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Bacon, Francis Thomas

SUBJECT AREA: Aerospace

[br]

b. 21 December 1904 Billericay, England

d. 24 May 1992 Little Shelford, Cambridge, England

[br]

English mechanical engineer, a pioneer in the modern phase of fuel-cell development.

[br]

After receiving his education at Eton and Trinity College, Cambridge, Bacon served with C.A. Parsons at Newcastle upon Tyne from 1925 to 1940. From 1946 to 1956 he carried out research on Hydrox fuel cells at Cambridge University and was a consultant on fuel-cell design to a number of organizations throughout the rest of his life.

Sir William Grove was the first to observe that when oxygen and hydrogen were supplied to platinum electrodes immersed in sulphuric acid a current was produced in an external circuit, but he did not envisage this as a practical source of electrical energy. In the 1930s Bacon started work to develop a hydrogen-oxygen fuel cell that operated at moderate temperatures and pressures using an alkaline electrolyte. In 1940 he was appointed to a post at King's College, London, and there, with the support of the Admiralty, he started full-time experimental work on fuel cells. His brief was to produce a power source for the propulsion of submarines. The following year he was posted as a temporary experimental officer to the Anti-Submarine Experimental Establishment at Fairlie, Ayrshire, and he remained there until the end of the Second World War.

In 1946 he joined the Department of Chemical Engineering at Cambridge, receiving a small amount of money from the Electrical Research Association. Backing came six years later from the National Research and Development Corporation (NRDC), the development of the fuel cell being transferred to Marshalls of Cambridge, where Bacon was appointed Consultant.

By 1959, after almost twenty years of individual effort, he was able to demonstrate a 6 kW (8 hp) power unit capable of driving a small truck. Bacon appreciated that when substantial power was required over long periods the hydrogen-oxygen fuel cell associated with high-pressure gas storage would be more compact than conventional secondary batteries.

The development of the fuel-cell system pioneered by Bacon was stimulated by a particular need for a compact, lightweight source of power in the United States space programme. Electro-chemical generators using hydrogen-oxygen cells were chosen to provide the main supplies on the Apollo spacecraft for landing on the surface of the moon in 1969. An added advantage of the cells was that they simultaneously provided water. NRDC was largely responsible for the forma-tion of Energy Conversion Ltd, a company that was set up to exploit Bacon's patents and to manufacture fuel cells, and which was supported by British Ropes Ltd, British Petroleum and Guest, Keen \& Nettlefold Ltd at Basingstoke. Bacon was their full-time consultant. In 1971 Energy Conversion's operation was moved to the UK Atomic Energy Research Establishment at Harwell, as Fuel Cells Ltd. Bacon remained with them until he retired in 1973.

[br]

Principal Honours and Distinctions

OBE 1967. FRS 1972. Royal Society S.G. Brown Medal 1965. Royal Aeronautical Society British Silver Medal 1969.

Bibliography

27 February 1952, British patent no. 667,298 (hydrogen-oxygen fuel cell). 1963, contribution in W.Mitchell (ed.), Fuel Cells, New York, pp. 130–92.

1965, contribution in B.S.Baker (ed.), Hydrocarbon Fuel Cell Technology, New York, pp. 1–7.

Further Reading

Obituary, 1992, Daily Telegraph (8 June).

A.McDougal, 1976, Fuel Cells, London (makes an acknowledgement of Bacon's contribution to the design and application of fuel cells).

D.P.Gregory, 1972, Fuel Cells, London (a concise introduction to fuel-cell technology).

GW

center

центр; пункт; пост; узел; середина; научпо-иселсдовагсльскпй центр, НИЦ; выводить на середину; арт. корректировать; центрировать;

air C3 center — центр руководства, управления и связи ВВС

air defense training and test(ing) center — учебно-испытательный центр ПВО

airborne battlefield C2 center — ВКП оперативного управления боевыми действиями

Armored (Combat) Training center — учебный центр бронетанковых войск

Army aviation (tactical) center — центр управления действиями армейской авиации

Defense Logistics (Services) center — центр тылового обеспечения МО

general supply (commodity) center — центр [пункт] снабжения предметами общего предназначения

hard launch (operations) control center — ркт. центр [пункт] управления пуском, защищенный от (поражающих факторов) ЯВ

large-scale surface C2 center — крупный наземный центр оперативного управления

launch (operations) control center — ркт. пункт управления стартового комплекса [пуском ракет]

military air traffic (control) center — военный центр УВД

mountain (warfare) training center — центр обучения войск действиям в горах

rear area operation(s) center — оперативный центр тылового района

replacement (depot) training center — учебный центр подготовки пополнений

sector (air operations) control center — центр управления действиями авиации в секторе ПВО

situation center (White House) — центр оценки обстановки (в Белом доме)

space defense C2 center — центр оперативного управления средствами ПКО

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опытно-конструкторские работы

1) Naval: development activity

2) Military: development and engineering, development efforts

3) Engineering: development, development engineering, experimental development, design process

4) Construction: development activities

5) Information technology: development work

6) Oil: development effort, development phase

7) Business: developmental work

8) Quality control: design and development activities

9) Cables: experimental development (ОКР)

10) Chemical weapons: research and development

11) Caspian: engineering

aircraft

воздушное судно [суда], атмосферный летательный аппарат [аппараты]; самолёт (ы) ; вертолёты); авиация; авиационный; см. тж. airplane, boost

aircraft in the barrier — самолёт, задержанный аварийной (аэродромной) тормозной установкой

aircraft in the pattern — самолёт на посадочном круге

aircraft off the line — новый [только что построенный] ЛА

aircraft on minimum fuel — ЛА с минимальным (для посадки) остатком топлива

arresting hook equipped aircraft — самолёт с тормозным крюком

B through F aircraft — самолёты модификаций B, C, D, E и F

carrier(-based, -borne) aircraft — палубный ЛА; авианосная авиация

clean up the aircraft — убирать шасси и закрылки

clear the air of enemy aircraft — очищать воздушное пространство от авиации противника

conventional takeoff and landing aircraft — самолёт с обычными взлетом и посадкой (в отличие от укороченного или вертикального)

drive off enemy aircraft — отгонять ЛА противника

drop the aircraft onlo main wheels — опускать ЛА на главные колеса (при посадке)

earth resources survey aircraft — ЛА для исследования ресурсов Земли

force an enemy aircraft down — вынуждать ЛА противника к посадке

forward air control aircraft — самолёт наведения

get out of the aircraft — покидать ЛА

get the aircraft into production — запускать ЛА в (серийное) производство

get the aircraft on the ground — сажать ЛА на землю

high-differential pressure cabin aircraft — самолёт с большим перепадом давления в гермокабине

in-flight refueling tanker aircraft — самолёт-заправщик

keep the aircraft (headed) straight — выдерживать направление полёта ЛА (при выполнении маневра); сохранять прямолинейный полет ЛА

keep the aircraft flying — поддерживать ЛА в состоянии лётной годности

keep the aircraft in flying trim — поддерживать ЛА в состоянии лётной годности

keep the aircraft stalled — сохранять режим срыва [сваливания] самолёта, оставлять самолёт в режиме срыва [сваливания]

lift the aircraft off the ground — отрывать ЛА от земли (при взлете)

light observation quiet aircraft — лёгкий наблюдательный малошумный самолёт

low-differential pressure cabin aircraft — самолёт с малым перепадом давления в гермокабине

nearly wing borne aircraft — верт. ЛА в конце режима перехода к горизонтальному полёту

night forward air control aircraft — ночной самолёт наведения

outmaneuver an enemy aircraft — превосходить ЛА противника в маневренности

outspeed an enemy aircraft — превосходить ЛА противника в скорости

pull the aircraft off the deck — разг. отрывать ЛА от земли (при взлете)

put the aircraft back in an operational status — возвращать ЛА в строй (годных к эксплуатации)

put the aircraft into service — вводить ЛА в эксплуатацию

put the aircraft nose-up — переводить [вводить] ЛА на кабрирование [в режим кабрирования]

put the aircraft onto the runway — сажать ЛА па ВПП

put the aircraft through its paces — определять предельные возможности ЛА, «выжимать все из ЛА»

reduced takeoff and landing aircraft — самолёт укороченного взлета и посадки (с укороченным разбегом и пробегом)

remotely controlled manned aircraft — телеуправляемый ЛА с экипажем на борту (на этапе отработки)

remotely piloted target aircraft — дистанционно управляемый самолёт-мишень

render the aircraft airborne — поднимать ЛА в воздух

rock the aircraft from side to side — раскачивать ЛА из стороны в сторону

rocket(-powered, -propelled) aircraft — ракетный ЛА, ЛА с ракетным двигателем

roll the aircraft into a bank — вводить ЛА в крен, накренять ЛА

rotate the aircraft into the climb — увеличивать угол тангажа ЛА для перехода к набору высоты, переводить ЛА в набор высоты

search and rescue aircraft — поисково-спасательный самолёт или вертолёт

send the aircraft around — направлять ЛА на второй круг

short takeoff and landing aircraft — самолёт короткого взлета и посадки (с коротким разбегом и пробегом)

single vertical tail aircraft — ЛА с одинарным [центральным] вертикальным оперением

stability and control aircraft — ЛА для исследования характеристик устойчивости и управляемости

stowable rotor aircraft — ЛА со складывающимся несущим винтом

strategic(-mission, -purpose) aircraft — ЛА стратегического назначения; стратегический самолёт

take the aircraft into flight — поднимать ЛА в воздух

take the aircraft throughout its entire envelope — пилотировать ЛА во всем диапазоне полётных режимов

talk in an aircraft — раза выводить ЛА на посадочный курс

test and evaluation aircraft — ЛА предназначенные для лётных испытаний и оценки

tilt wing-deflected slipstream aircraft — СВВП с поворотным крылом и отклоняемой струей от винтов

trim the aircraft to fly hands-and-feet off — балансировать самолёт для полёта с брошенным управлением [с брошенными ручкой и педалями]

turbofan(-engined, -powered) aircraft — ЛА с турбовентиляторными двигателями, ЛА с ТРДД

turbojet(-powered, -propelled) aircraft — ЛА с ТРД

turn the aircraft toward the runway — разворачивать ЛА в направлении ВПП

turn up the aircraft — гонять двигатели ЛА

undergraduate navigator training aircraft — учебно-тренировочный самолёт для повышенной лётной подготовки штурманов

upper atmosphere research aircraft — ЛА для исследования верхних слоев атмосферы

vertical takeoff and landing aircraft — ЛА вертикального взлета и посадки

water(-based, takeoff and landing) aircraft — гидросамолёт

wrench the aircraft into a turn — вводить ЛА в разворот

— abandoned aircraft

— aborted aircraft

— acrobatic aircraft

— active ECM aircraft

— administrative aircraft

— advanced aircraft

— advanced-trainer aircraft

— aerobatic aircraft

— aerobatic training aircraft

— aerodynamic-test aircraft

— aft-engined aircraft

— ailing aircraft

— air alert aircraft

— air reserve aircraft

— airborne alert aircraft

— air-breathing aircraft

— air-carrier aircraft

— aircraft in distress

— aircraft in service

— aircraft in trouble

— aircraft on loan

— airline aircraft

— air-to-air refueling aircraft

— airworthy aircraft

— all-altitude aircraft

— all-body aircraft

— all-can-do aircraft

— all-cargo aircraft

— all-metal aircraft

— all-purpose aircraft

— all-rocket-armed aircraft

— all-terrain aircraft

— all-weather aircraft

— all-wing aircraft

— all-wood aircraft

— aluminum aircraft

— ambulance aircraft

— amphibian aircraft

— amphibious aircraft

— annular-wing aircraft

— antiradiation missile aircraft

— antisubmarine warfare aircraft

— armed aircraft

— armored aircraft

— army aircraft

— army cooperation aircraft

— army support aircraft

— arriving aircraft

— artillery location aircraft

— artillery observation aircraft

— artillery reconnaissance aircraft

— assault aircraft

— assault transport aircraft

— ASW aircraft

— asymmetrical aircraft

— athodyd aircraft

— atmosphere-entry-type aircraft

— attack aircraft

— augmented jet aircraft

— augmentor-wing aircraft

— automatically-controlled aircraft

— autopilot-controlled aircraft

— autopiloted aircraft

— backup aircraft

— bailment aircraft

— ballasted aircraft

— base flight aircraft

— basic aircraft

— big-door aircraft

— bimotor aircraft

— bingoing aircraft

— biservice aircraft

— bisymmetrical aircraft

— BLC aircraft

— blind-flying training aircraft

— bobtailed aircraft

— bombing aircraft

— boost-glide aircraft

— border patrol aircraft

— box-like aircraft

— braced aircraft

— business aircraft

— cabin-type aircraft

— canard aircraft

— cargo aircraft

— carrier-on-board aircraft

— CASS aircraft

— catapulted aircraft

— Cat-T aircraft

— century series aircraft

— certified aircraft

— channel-wing aircraft

— chase aircraft

— chemically-fueled aircraft

— chemically-powered aircraft

— chock the aircraft

— clean configured aircraft

— close-air-support aircraft

— cloud sampling aircraft

— coastal patrol aircraft

— COIN aircraft

— collapsible aircraft

— collision-protected aircraft

— combat aircraft

— combat-and-trainer aircraft

— combat-damaged aircraft

— combat-loaded aircraft

— combination aircraft

— command communication aircraft

— command post aircraft

— commercial aircraft

— communication relay aircraft

— company-funded aircraft

— comparable enemy aircraft

— complete aircraft

— composite aircraft

— composite powerplant aircraft

— composite turbojet aircraft

— computer-driven aircraft

— configure the aircraft

— conventional design aircraft

— conventional-technology aircraft

— converging aircraft

— conversion-type aircraft

— converted aircraft

— convertible aircraft

— cooperation aircraft

— countermeasures aircraft

— crashed aircraft

— crash-landed aircraft

— crescent-wing aircraft

— cross-country aircraft

— cruciform aircraft

— CTOL aircraft

— damaged aircraft

— deck-landing aircraft

— deck-launched aircraft

— deck-launching aircraft

— defensive aircraft

— deflected-exhaust aircraft

— deflected-slipstream aircraft

— deflected-thrust aircraft

— delta-winged aircraft

— demonstrator aircraft

— departing aircraft

— designator aircraft

— development batch aircraft

— development test aircraft

— developmental aircraft

— directed aircraft

— direct-lift aircraft

— director aircraft

— disabled aircraft

— dispersed aircraft

— distressed aircraft

— dlscoid-shaped aircraft

— Doppler-navigated aircraft

— double-deck aircraft

— double-delta aircraft

— downed aircraft

— drone aircraft

— dual-control aircraft

— dual-role aircraft

— dual-service aircraft

— ducted-propeller aircraft

— dynamically slender aircraft

— early-warning aircraft

— ECM aircraft

— eight-engined aircraft

— ejection-seat aircraft

— ejector-seat aircraft

— electronic conntermeasures aircraft

— electronic intelligence aircraft

— electronic reconnaissance aircraft

— electronic warfare aircraft

— electronically-controlled aircraft

— elongated aircraft

— endurance-test aircraft

— enemy intruder aircraft

— engineless aircraft

— enroute aircraft

— errant aircraft

— escort aircraft

— executive aircraft

— exit the aircraft

— expendable aircraft

— experimental aircraft

— extended-range aircraft

— faker aircraft

— fan-in-wing aircraft

— fan-jet aircraft

— fast aircraft

— fast-climbing aircraft

— fast-penetration aircraft

— feeder liner aircraft

— ferret aircraft

— ferrying aircraft

— fertilizing aircraft

— fighter control aircraft

— fighter direction aircraft

— fighter reconnaissance aircraft

— firing aircraft

— first-generation aircraft

— first-line aircraft

— fixed aircraft

— fixed-gear aircraft

— fixed-geometry aircraft

— fixed-wing aircraft

— flamed-out aircraft

— flank aircraft

— flapless aircraft

— flapped aircraft

— fleet-orbiting aircraft

— flexible aircraft

— flight aircraft

— flight-inspection aircraft

— flight-test aircraft

— floated aircraft

— flutter-clear aircraft

— flying testbed aircraft

— folding-rotor aircraft

— folding-winged aircraft

— foreign-built aircraft

— four-engined aircraft

— four-jet aircraft

— freight aircraft

— friendly aircraft

— front-line aircraft

— full-scale aircraft

— full-sized aircraft

— fully-aerobatic aircraft

— fully-armed aircraft

— fully-fueled aircraft

— fully-manned aircraft

— fuselage-heavy aircraft

— G aircraft

— gas-turbine aircraft

— gear-down aircraft

— gear-up aircraft

— general aviation aircraft

— general-purpose aircraft

— general-utility aircraft

— generating aircraft

— GETOL aircraft

— glazed-nose aircraft

— glider transport aircraft

— glider tug aircraft

— glide-type aircraft

— government aircraft

— ground alert aircraft

— guided aircraft

— gunship aircraft

— gust sensitive aircraft

— gyrodyne aircraft

— handle the aircraft

— handy aircraft

— hard-runway aircraft

— heavier-than-air aircraft

— heavy weight aircraft

— hedge-hopping aircraft

— helicopter-cum-fixed-wing aircraft

— high-altitude aircraft

— high-altitude surveillance aircraft

— high-aspect-ratio wing aircraft

— high-dynamic-pressure aircraft

— high-flying aircraft

— highly-flexible aircraft

— highly-maneuverable aircraft

— highly-wing loaded aircraft

— high-Mach aircraft

— high-performance aircraft

— high-set tail aircraft

— high-speed aircraft

— high-subsonic aircraft

— high-supersonic aircraft

— high-time aircraft

— high-winged aircraft

— holding aircraft

— home-built aircraft

— hostile aircraft

— hot-foot aircraft

— hovering aircraft

— hover-jet aircraft

— human-piloted aircraft

— hungry aircraft

— hydro-ski aircraft

— hypersonic aircraft

— hypersonic cruise aircraft

— hypothetical aircraft

— IFR aircraft

— illuminating aircraft

— incoming aircraft

— inertial fuselage-heavy aircraft

— inertially slender aircraft

— inflatable aircraft

— inflatable-wing aircraft

— inhabited aircraft

— in-service aircraft

— instrument training aircraft

— instrumented aircraft

— intercity aircraft

— intercommunication aircraft

— intercontinental aircraft

— interrogate the aircraft

— intruder aircraft

— inverted aircraft

— jamming aircraft

— jet attack aircraft

— jet-augmented aircraft

— jet-boosted aircraft

— jet-ejector aircraft

— jet-engined aircraft

— jet-flap aircraft

— jet-flap research aircraft

— jet-lift aircraft

— jet-propelled aircraft

— jet-propulsion aircraft

— jumbo aircraft

— key aircraft

— laminar-flow aircraft

— laminarized aircraft

— land-based aircraft

— large dimension aircraft

— large-capacity aircraft

— large-payload aircraft

— late-production aircraft

— launched aircraft

— launching aircraft

— leader aircraft

— leading aircraft

— leadnose aircraft

— level the aircraft

— level-supersonic aircraft

— LFC aircraft

— liaison aircraft

— license-built aircraft

— license-manufactured aircraft

— lift-fan aircraft

— lifting aircraft

— light transport aircraft

— lighter-than-air aircraft

— litter aircraft

— load the aircraft

— loaded aircraft

— loitering aircraft

— long-distance aircraft

— long-endurance aircraft

— long-range aircraft

— low-altitude aircraft

— low-aspect-ratiowing aircraft

— low-flying aircraft

— low-level aircraft

— low-observable aircraft

— low-set-tail aircraft

— low-speed aircraft

— low-wing aircraft

— low-wing-loading aircraft

— man the aircraft

— man-carrying aircraft

— maneuverable aircraft

— maneuvering aircraft

— maneuvering-type aircraft

— manned aircraft

— man-powered aircraft

— manually controlled aircraft

— marginally powered aircraft

— marine aircraft

— maritime aircraft

— mass-produced aircraft

— medical air-evacuation aircraft

— medium cargo aircraft

— medium transport aircraft

— medium-weight aircraft

— medium-capacity aircraft

— medium-haul aircraft

— medium-payload aircraft

— medium-range aircraft

— metal aircraft

— meteorological reconnaissance aircraft

— middle-wing aircraft

— mid-set aircraft

— mid-wing aircraft

— mine-laying aircraft

— missile-carrier aircraft

— missile-carrying aircraft

— missile-launching aircraft

— mission aircraft

— MIT aircraft

— mixed jet-rocket aircraft

— mixed-powerplant aircraft

— model aircraft

— modified aircraft

— modular aircraft

— mother aircraft

— motorless aircraft

— multiengined aircraft

— multijet aircraft

— multimission aircraft

— multiplace aircraft

— multipurpose aircraft

— multiseated aircraft

— multisensor aircraft

— M-wing aircraft

— narrow-bodied aircraft

— navalized aircraft

— near term aircraft

— nonaerobatic aircraft

— noncombat aircraft

— nonexpendable aircraft

— nonmaneuverable aircraft

— nonoperational aircraft

— nonpressurized cabin aircraft

— nonspinnable aircraft

— nonspinning aircraft

— normal design aircraft

— nose-heavy aircraft

— nose-tow-equipped aircraft

— nose-wheel aircraft

— nuclear aircraft

— nuclear-carrier aircraft

— nuclear-powered aircraft

— nuclear-propelled aircraft

— number two aircraft

— oblique takeoff aircraft

— oblique wing aircraft

— observation aircraft

— obsolete aircraft

— ogee-planform aircraft

— ogee-wing aircraft

— oncoming aircraft

— open-cockpit aircraft

— operating aircraft

— operational aircraft

— operational trainer aircraft

— operational training aircraft

— operationally-configured aircraft

— operationally-ready aircraft

— opponent aircraft

— opposing aircraft

— optimum aircraft

— orbiting aircraft

— originating aircraft

— out-of-control aircraft

— overloaded aircraft

— overtaken aircraft

— overwater aircraft

— overweight aircraft

— pacer aircraft

— paint the aircraft

— pantobase aircraft

— pantosurface aircraft

— paper aircraft

— parabolic flight aircraft

— parasol aircraft

— parent aircraft

— parked aircraft

— passenger/cargo aircraft

— passenger-carrying cargo aircraft

— pathfinder aircraft

— patrol aircraft

— performance aircraft

— personal aircraft

— photographic reconnaissance aircraft

— photographic-mapping aircraft

— photographic-survey aircraft

— picket aircraft

— pickup aircraft

— pilot-controlled aircraft

— pilot's aircraft

— pilot-training aircraft

— piston-driven aircraft

— piston-engined aircraft

— plastic aircraft

— podded aircraft

— pods-off aircraft

— power boost-controlled aircraft

— power the aircraft

— power-controlled aircraft

— powered aircraft

— powerful aircraft

— preflight the aircraft

— pre-production aircraft

— Present-generation aircraft

— Pressurized-cabin aircraft

— primary developmental aircraft

— primary training aircraft

— private aircraft

— probe aircraft

— production model aircraft

— prone-pilot aircraft

— proof-of-concept aircraft

— propeller-driven aircraft

— propeller-propelled aircraft

— propjet aircraft

— prop-lift aircraft

— proprotor aircraft

— propulsive wing aircraft

— protected aircraft

— prototype aircraft

— provisionally certificated aircraft

— pulsejet aircraft

— pusher-equipped aircraft

— pusher-type aircraft

— push-pull aircraft

— Q/STOL aircraft

— questionable aircraft

— quick aircraft

— quiet aircraft

— quieted aircraft

— quiet-engined aircraft

— R&D aircraft

— racing aircraft

— radar-calibration aircraft

— radar-nosed aircraft

— radar-picket aircraft

— radar-simulated aircraft

— radar-training aircraft

— radio-controlled aircraft

— ramjet-powered aircraft

— ramp-launched aircraft

— reaction-control aircraft

— readable aircraft

— rear-engined aircraft

— rear-loading aircraft

— receiver aircraft

— receiving aircraft

— reciprocating-engine aircraft

— reconnaissance aircraft

— record-holding aircraft

— recovery aircraft

— red-cross aircraft

— refueled aircraft

— refueling aircraft

— relay aircraft

— relief aircraft

— remotely controlled aircraft

— rendezvousing aircraft

— rent aircraft

— replacement aircraft

— rescue aircraft

— research aircraft

— research and development aircraft

— responsive aircraft

— retractable-gear aircraft

— reverse-thrust aircraft

— revetted aircraft

— ride the aircraft

— robot aircraft

— rocket-armed aircraft

— rocket-boosted aircraft

— rocket-carrying aircraft

— rotary wing aircraft

— rotating wing aircraft

— rotor aircraft

— rotor/propeller aircraft

— rugged aircraft

— runaway aircraft

— scissor-winged aircraft

— scramble aircraft

— seaborne aircraft

— search radar aircraft

— second-generation aircraft

— second-line aircraft

— second-mission aircraft

— semiaerobatic aircraft

— semiexpendable aircraft

— series production aircraft

— service aircraft

— service-test aircraft

— shadow aircraft

— shaker-equipped aircraft

— sheltered aircraft

— ship-based aircraft

— shipboard aircraft

— shipborne aircraft

— shore-based aircraft

— short takeoff aircraft

— shorter-winged aircraft

— short-field aircraft

— short-haul aircraft

— short-landing aircraft

— short-legged aircraft

— short-range aircraft

— short-span aircraft

— shoulder-wing aircraft

— sick aircraft

— side firing aircraft

— side-loading aircraft

— similar model aircraft

— simulated aircraft

— single-design-point aircraft

— single-float aircraft

— single-jet aircraft

— single-place aircraft

— single-seat aircraft

— six-engined aircraft

— skip-bombing aircraft

— slender aircraft

— slender-delta aircraft

— slender-wing aircraft

— slim-delta aircraft

— slow the aircraft

— slow-landing aircraft

— smooth-flying aircraft

— solo-piloted aircraft

— spare aircraft

— special aircraft

— specially instrumented aircraft

— special-mission aircraft

— special-purpose aircraft

— spin demonstration aircraft

— spin model aircraft

— spinnable aircraft

— spinning aircraft

— spirally stable aircraft

— spirally unstable aircraft

— spotter aircraft

— stabilized aircraft

— stable aircraft

— stacked aircraft

— staged aircraft

— stalled aircraft

— stall-free aircraft

— stall-proof aircraft

— stall-safe aircraft

— static-test aircraft

— steep gradient aircraft

— stick-pusher aircraft

— still-to-be-delivered aircraft

— STOL aircraft

— stopped-folded rotor aircraft

— stopped-stowed rotor aircraft

— stored aircraft

— stowed rotor aircraft

— strafer aircraft

— strafing aircraft

— straight-jet aircraft

— straight-wing aircraft

— streamlined aircraft

— stretched aircraft

— strike aircraft

— stripped aircraft

— strongly controlled aircraft

— study aircraft

— subsonic aircraft

— supersonic aircraft

— supersonic cruising aircraft

— supply aircraft

— supply dropper aircraft

— support type aircraft

— surface effect aircraft

— swept-back aircraft

— swept-wing aircraft

— swing-tail aircraft

— swing-wing aircraft

— swiveling-nozzle aircraft

— symmetrical aircraft

— symmetrically loaded aircraft

— systems test aircraft

— tailed aircraft

— tail-engined aircraft

— tail-first aircraft

— tailless aircraft

— tail-sitting aircraft

— tail-wheeled aircraft

— tandem aircraft

— tandem-wing aircraft

— tanker aircraft

— target aircraft

— target drone aircraft

— target-towing aircraft

— telecontrolled aircraft

— television-controlled aircraft

— terminating aircraft

— terrain-following aircraft

— test aircraft

— test-bed aircraft

— test-support aircraft

— the aircraft off

— theoretical aircraft

— thick-winged aircraft

— third-generation aircraft

— third-level aircraft

— threat aircraft

— three-point refueling aircraft

— thrust-vectored aircraft

— tied-down aircraft

— tight-turning aircraft

— tilt-fold-proprotor aircraft

— tilting-wing aircraft

— tilting-duct propeller aircraft

— tilt-propeller aircraft

— tilt-wing propeller aircraft

— torpedo-carrier aircraft

— towing aircraft

— tow-target aircraft

— tractor-type aircraft

— trailing aircraft

— trainer aircraft

— training aircraft

— transatlantic aircraft

— transcontinental aircraft

— transitional aircraft

— transoceanic aircraft

— transonic aircraft

— transonically-accelerating aircraft

— transponder-equipped aircraft

— transport aircraft

— trials aircraft

— tricyclic-geared aircraft

— triphibian aircraft

— triphibious aircraft

— triple-finned aircraft

— triplex-systemed aircraft

— tri-service aircraft

— tri-tail aircraft

— troop-carrier aircraft

— trunk-route aircraft

— T-tailed aircraft

— tug aircraft

— turbine-engined aircraft

— turbine-powered aircraft

— turboprop aircraft

— turboramjet aircraft

— turbulent aircraft

— twin-boom aircraft

— twin-duct aircraft

— twin-jet aircraft

— twin-turbofan aircraft

— twin-turboprop aircraft

— two-altimeter aircraft

— two-control aircraft

— two-design-point aircraft

— ultimate production aircraft

— ultra-high-performance aircraft

— unarmed aircraft

— unaugmented aircraft

— unbailable aircraft

— uncontrollable aircraft

— uncontrolled aircraft

— underrun the aircraft

— unflapped aircraft

— unflown aircraft

— unidentified aircraft

— unknown aircraft

— unmanned aircraft

— unmodified aircraft

— unprotected aircraft

— unstable aircraft

— unswept aircraft

— upright aircraft

— utility aircraft

— V/STOL aircraft

— variable-control aircraft

— variable-geometry aircraft

— variable-incidence aircraft

— variable-mass aircraft

— variable-stability aircraft

— variable-sweep wing aircraft

— vector the aircraft

— vectored aircraft

— vectored lift aircraft

— vectored thrust aircraft

— vectoring aircraft

— versatile aircraft

— vertical attitude aircraft

— vertical takeoff aircraft

— vertical-flight aircraft

— vertical-lift aircraft

— vertically-rising aircraft

— VG aircraft

— voice aircraft

— vortex generating aircraft

— VTOL aircraft

— weather-modified aircraft

— wheeled aircraft

— wide-body aircraft

— wingborne aircraft

— winged aircraft

— wingless aircraft

— wingman's aircraft

— winterized aircraft

— wool-tufted aircraft

— wrecked aircraft

— yaw the aircraft

— yawed aircraft

— zero-length-launch aircraft

study

исследование; изучение

aerodynamic study

aeroelastic study

air-to-ground study

analytical study

buffet study

concept definition study

correlative study

cost-definition study

design study

design feasibility study

drag study

drag-reducing study

dynamic study

experimental study

fatigue study

feasibility study

fractographic study

high-angle-of-attack study

high-speed study

holographic study

human factors study

in-depth study

in-house study

market study

minimum fuel study

model study

nozzle-airframe study

numerical study

oil-flow study

parametric study

photoelasticity study

prefeasibility study

preliminary design study

project definition study

simulation study

technology-trade study

trade study

trade-off study

visible flow study

опытный образец

1) General subject: development type, developmental prototype

2) Naval: experimental prototype

3) Military: Y (ЛА), development prototype, pilot item, testbed (англ. термин взят из репортажа агентства Thomson Reuters; контекстуальный перевод)

4) Engineering: engineering sample, experimental model, pilot model, preproduction model, prototype, prototype machine, prototype model, prototype preproduction model, prototype unit, test sample

5) Agriculture: check sample, control sample, proof sample

6) Economy: first article, pilot sample, test pattern

7) Accounting: prototype model (напр. машины)

8) Automobile industry: trial model

9) Electronics: test model

10) Information technology: trial design

11) Oil: test piece, test specimen

12) Astronautics: functional equipment, predictable pattern

13) Advertising: pilot sample (изделия)

14) Business: certificate model

15) EBRD: industrial prototype

16) Automation: R and D model, engineering prototype, preproduction prototype, production prototype, prototype sample

17) Quality control: pilot( run) item

18) Chemical weapons: test prototype

19) Makarov: machine (первое спроектированное изделие в металле), part (первое спроектированное изделие в металле), prototype (первое спроектированное изделие в металле)

Evans, Oliver

SUBJECT AREA: Agricultural and food technology

[br]

b. 13 September 1755 Newport, Delaware, USA

d. 15 April 1819 New York, USA

[br]

American millwright and inventor of the first automatic corn mill.

[br]

He was the fifth child of Charles and Ann Stalcrop Evans, and by the age of 15 he had four sisters and seven brothers. Nothing is known of his schooling, but at the age of 17 he was apprenticed to a Newport wheelwright and wagon-maker. At 19 he was enrolled in a Delaware Militia Company in the Revolutionary War but did not see active service. About this time he invented a machine for bending and cutting off the wires in textile carding combs. In July 1782, with his younger brother, Joseph, he moved to Tuckahoe on the eastern shore of the Delaware River, where he had the basic idea of the automatic flour mill. In July 1782, with his elder brothers John and Theophilus, he bought part of his father's Newport farm, on Red Clay Creek, and planned to build a mill there. In 1793 he married Sarah Tomlinson, daughter of a Delaware farmer, and joined his brothers at Red Clay Creek. He worked there for some seven years on his automatic mill, from about 1783 to 1790.

His system for the automatic flour mill consisted of bucket elevators to raise the grain, a horizontal screw conveyor, other conveying devices and a "hopper boy" to cool and dry the meal before gathering it into a hopper feeding the bolting cylinder. Together these components formed the automatic process, from incoming wheat to outgoing flour packed in barrels. At that time the idea of such automation had not been applied to any manufacturing process in America. The mill opened, on a non-automatic cycle, in 1785. In January 1786 Evans applied to the Delaware legislature for a twenty-five-year patent, which was granted on 30 January 1787 although there was much opposition from the Quaker millers of Wilmington and elsewhere. He also applied for patents in Pennsylvania, Maryland and New Hampshire. In May 1789 he went to see the mill of the four Ellicot brothers, near Baltimore, where he was impressed by the design of a horizontal screw conveyor by Jonathan Ellicot and exchanged the rights to his own elevator for those of this machine. After six years' work on his automatic mill, it was completed in 1790. In the autumn of that year a miller in Brandywine ordered a set of Evans's machinery, which set the trend toward its general adoption. A model of it was shown in the Market Street shop window of Robert Leslie, a watch-and clockmaker in Philadelphia, who also took it to England but was unsuccessful in selling the idea there.

In 1790 the Federal Plant Laws were passed; Evans's patent was the third to come within the new legislation. A detailed description with a plate was published in a Philadelphia newspaper in January 1791, the first of a proposed series, but the paper closed and the series came to nothing. His brother Joseph went on a series of sales trips, with the result that some machinery of Evans's design was adopted. By 1792 over one hundred mills had been equipped with Evans's machinery, the millers paying a royalty of $40 for each pair of millstones in use. The series of articles that had been cut short formed the basis of Evans's The Young Millwright and Miller's Guide, published first in 1795 after Evans had moved to Philadelphia to set up a store selling milling supplies; it was 440 pages long and ran to fifteen editions between 1795 and 1860.

Evans was fairly successful as a merchant. He patented a method of making millstones as well as a means of packing flour in barrels, the latter having a disc pressed down by a toggle-joint arrangement. In 1801 he started to build a steam carriage. He rejected the idea of a steam wheel and of a low-pressure or atmospheric engine. By 1803 his first engine was running at his store, driving a screw-mill working on plaster of Paris for making millstones. The engine had a 6 in. (15 cm) diameter cylinder with a stroke of 18 in. (45 cm) and also drove twelve saws mounted in a frame and cutting marble slabs at a rate of 100 ft (30 m) in twelve hours. He was granted a patent in the spring of 1804. He became involved in a number of lawsuits following the extension of his patent, particularly as he increased the licence fee, sometimes as much as sixfold. The case of Evans v. Samuel Robinson, which Evans won, became famous and was one of these. Patent Right Oppression Exposed, or Knavery Detected, a 200-page book with poems and prose included, was published soon after this case and was probably written by Oliver Evans. The steam engine patent was also extended for a further seven years, but in this case the licence fee was to remain at a fixed level. Evans anticipated Edison in his proposal for an "Experimental Company" or "Mechanical Bureau" with a capital of thirty shares of $100 each. It came to nothing, however, as there were no takers. His first wife, Sarah, died in 1816 and he remarried, to Hetty Ward, the daughter of a New York innkeeper. He was buried in the Bowery, on Lower Manhattan; the church was sold in 1854 and again in 1890, and when no relative claimed his body he was reburied in an unmarked grave in Trinity Cemetery, 57th Street, Broadway.

[br]

Further Reading

E.S.Ferguson, 1980, Oliver Evans: Inventive Genius of the American Industrial Revolution, Hagley Museum.

G.Bathe and D.Bathe, 1935, Oliver Evans: Chronicle of Early American Engineering, Philadelphia, Pa.

IMcN

Ferguson, Harry

SUBJECT AREA: Agricultural and food technology

[br]

b. 4 November 1884 County Down, Ireland

d. 25 October 1960 England

[br]

Irish engineer who developed a tractor hydraulic system for cultivation equipment, and thereby revolutionized tractor design.

[br]

Ferguson's father was a small farmer who expected his son to help on the farm from an early age. As a result he received little formal education, and on leaving school joined his brother in a backstreet workshop in Belfast repairing motor bikes. By the age of 19 he had built his own bike and began hill-climbing competitions and racing. His successes in these ventures gained useful publicity for the workshop. In 1907 he built his own car and entered it into competitions, and in 1909 became the first person in Britain to build and fly a machine that was heavier than air.

On the outbreak of the First World War he was appointed by the Irish Department of Agriculture to supervise the operation and maintenance of all farm tractors. His experiences convinced him that even the Ford tractor and the implements available for it were inadequate for the task, and he began to experiment with his own plough designs. The formation of the Ferguson-Sherman Corporation resulted in the production of thousands of the ploughs he had designed for the Ford tractor, but in 1928 Ford discontinued production of tractors, and Ferguson returned to Ireland. He immediately began to design his own tractor. Six years of development led to the building of a prototype that weighed only 16 cwt (813kg). In 1936 David Brown of Huddersfield, Yorkshire, began production of these tractors for Ferguson, but the partnership was not wholly successful and was dissolved after three years. In 1939 Ferguson and Ford reached their famous "Handshake agreement", in which no formal contract was signed, and the mass production of the Ford Ferguson system tractors began that year. During the next nine years 300,000 tractors and a million implements were produced under this agreement. However, on the death of Henry Ford the company began production, under his son, of their own tractor. Ferguson returned to the UK and negotiated a deal with the Standard Motor Company of Coventry for the production of his tractor. At the same time he took legal action against Ford, which resulted in that company being forced to stop production and to pay damages amounting to US$9.5 million.

Aware that his equipment would only operate when set up properly, Ferguson established a training school at Stoneleigh in Warwickshire which was to be a model for other manufacturers. In 1953, by amicable agreement, Ferguson amalgamated with the Massey Harris Company to form Massey Ferguson, and in so doing added harvesting machinery to the range of equipment produced. A year later he disposed of his shares in the new company and turned his attention again to the motor car. Although a number of experimental cars were produced, there were no long-lasting developments from this venture other than a four-wheel-drive system based on hydraulics; this was used by a number of manufacturers on occasional models. Ferguson's death heralded the end of these developments.

[br]

Principal Honours and Distinctions

Honorary DSc Queen's University, Belfast, 1948.

Further Reading

C.Murray, 1972, Harry Ferguson, Inventor and Pioneer. John Murray.

AP

экспериментальный преобразователь автоматизированного проектирования

Information technology: computer-aided design experimental translator

методика

method, policy, procedure, strategy, technique, technology, theory

* * *

мето́дика ж.
technique, procedure; methods, methodology

мето́дика взя́тия образцо́в — sampling technique

мето́дика за́пуска косм. — launching technique

мето́дика измере́ний — measurement procedure

мето́дика расчё́та — design procedure

сокращё́нная мето́дика — abbreviated procedure

мето́дика экспериме́нта — experimental technique

достижение

. большое достижение

•

Such machines represent considerable step forward [or an achievement, or an accomplishment, or an advance( ment), or a breakthrough] in ac motor design.

II

•

Today the objective of the chemist is to aid in the interpretation of the universe; he has made much progress toward meeting this objective.

* * *

Достижение -- achievement, accomplishment, advancement, progress, breakthrough (успех); attainment, establishment (установление)

 The use of cooled metal superalloy turbine technology was not expected to manifest any dramatic breakthroughs.

 The establishment of steady state conditions within the enclosure was a primary concern in the experimental procedure.

— вносить существенный вклад в современные достижения в области

— воплощать в себе самые последние достижения в

— воспользоваться достижениями передовой техники

— время, необходимое для достижения

— для достижения

— для достижения... может потребоваться

— для достижения этого состояния

— достижение равновесного состояния

— достижения в области техники

— достижения в области

— заметные успехи в достижении

— ниже обобщены основные достижения

— одно из основных последних достижений в

— основан на недавних достижениях в области

— основанный на самых последних достижениях в практике расчётов

— подлинно выдающееся достижение

— последние достижения в области

— последние технические достижения

— представлять собой самые последние технические достижения в области

— с целью достижения

— способствовать достижению

— способствовать достижению этих целей

— средство для достижения этой цели

— техническое достижение

— упущение или наоборот достижение

— хорошие возможности для достижения

equipment

оборудование; снаряжение; оснащение; оснастка (напр. станка); приспособления; приборы; аппаратура; арматура; принадлежности; подвижной состав; воен. материальная часть; боевая техника

- equipment adjusting

- equipment arrangement - equipment availability - equipment building - equipment capital costs - equipment casualty - equipment certificate - equipment certification - equipment certification requirement - equipment check - equipment checkout - equipment clock - equipment compatibility - equipment condition data - equipment damage - equipment dependability - equipment depot - equipment design failure

- equipment deterioration

- equipment duplication

- equipment error - equipment facilities - equipment failure - equipment failure information - equipment failure log - equipment for road construction - equipment for the manufacture of asbestos cement - equipment identification register - equipment identity register - equipment in place - equipment inspection - equipment-intermodulation noise - equipment investments - equipment lay-out - equipment layout - equipment lease - equipment leasing - equipment level controller - equipment location - equipment longevity - equipment maintenance facility - equipment maintenance management program - equipment maintenance officer - equipment maintenance ratio - equipment maintenance report - equipment maintenance team - equipment manufacturer code - equipment manufacturing failure - equipment-modification list - equipment monitoring - equipment nomenclature - equipment operating procedure - equipment operation test - equipment package - equipment performance log - equipment performance report - equipment placement - equipment programming - equipment protection device - equipment qualification - equipment rack - equipment ready date - equipment rebuilding - equipment reference book - equipment regulation - equipment reliability - equipment reliability status report - equipment repair time - equipment replacement - equipment replacement network - equipment reservation - equipment revamping - equipment review board - equipment room - equipment safety - equipment salvage - equipment schedule - equipment serviceability criterion - equipment side - equipment specifications - equipment spendings - equipment status board - equipment status chart - equipment status indication - equipment status log - equipment supervision - equipment terminal - equipment unavailability - equipment upgrading - equipment wire - accessory equipment - acoustic emission equipment - acoustical equipment - actuated equipment - add-on equipment - air equipment - air-chucking equipment - air-conditioning equipment - air-humidifying equipment - air-painting equipment - ancillary equipment - answering equipment - assembly equipment

- autoload equipment

- automatic brazing equipment

- automatic checkout-and-readiness equipment

- automatic checkout recording equipment

- automatic control equipment

- automatic test equipment

- automation equipment

- automotive equipment

- autopallet transfer equipment

- auxiliary equipment

- auxiliary data processing equipment

- balancing equipment - blasting equipment - board equipment - bolt-on equipment - brake equipment - built-in test equipment

- cab equipment

- CAD equipment

- calibration equipment - CAM equipment - capital equipment - cargo handling equipment - carrying and lifting equipment - centrifugal pumping equipment - checking equipment - collective protective equipment

- communication equipment

- component-handling equipment

- compressor equipment - computer-aided test equipment - computer-automated equipment - concrete-handling equipment - consumption equipment

- continuous handling equipment

- control equipment

- control and indicating equipment

- controllable balancing equipment - conveying equipment - coolant clarification equipment - cost-effective equipment - crane equipment - crane electrical equipment

- crash equipment

- crushing equipment

- crushing and screening equipment - data-processing equipment - dedicated equipment - defective equipment - de-icer equipment - demonstration equipment - detection equipment - detritus equipment - diagnosis equipment - diagnostic equipment - digital readout equipment - dimensional-inspection equipment - direction-finding equipment - driven equipment - durable equipment

- earthmoving equipment

- efficient earthmoving equipment

- electrical equipment - electrical discharge equipment - electroheat equipment - electrothermal equipment - emergency equipment - energy equipment - energy-intensive equipment - erection equipment - exhibition equipment - experimental equipment - external test equipment - FA-related equipment - fabricating equipment - fabrication equipment - factory-installed equipment - failed equipment - farming equipment - faulty equipment - feeding equipment - field-balancing equipment - filling equipment - finishing equipment - fire-fighting equipment - fire safety equipment - fixed equipment - fixed path equipment - flatness testing equipment - fuel handling equipment - gaging equipment - garage equipment - garage-repair equipment - gas equipment - gas-welding equipment - gear testing equipment - general-purpose equipment - general test equipment - grading equipment - greasing equipment - grit-dredging equipment - handling equipment - hard automation equipment - haulage equipment - hauling equipment - heat-treating equipment - hi-fi equipment - high-fi equipment - high-technology equipment - higher-horsepower equipment - homemade fire-fighting equipment - hydraulic equipment - hydraulic tracing equipment - idle equipment - ignition equipment - independent equipment - industrial equipment - industrial cleaning equipment - input equipment - inspection equipment - installation equipment - installed equipment - instrumental equipment - instrumented equipment - interconnecting equipment - jaw-type work-holding equipment - joining equipment - laboratory equipment - lifting equipment - lighting equipment - loading equipment - loading and unloading equipment for dryer cars - machine-tool equipment - machining equipment - maintenance equipment - maintenance-and-support equipment - manipulating equipment - manually controlled equipment - manufacturing equipment - material-handling equipment - materials-handling equipment - material mining equipment - MDI equipment - measurement-processing equipment - measuring and control equipment - measuring equipment - mechanical handling equipment - metal-cutting equipment - metering equipment - microprocessing equipment - microwave heating equipment - military equipment - mill-turn equipment - mobile equipment - monitoring equipment - mountable pile-driving equipment - multidimension gaging equipment - multisensor equipment - noise abatement equipment - non-assembled equipment - nonrepairable equipment - nonstandard equipment - off-road equipment - operational equipment - optional equipment - outdated equipment - outmoded equipment - out-of-repair equipment - paint equipment - parts-handling equipment - parts-washing equipment - pattern equipment - peripheral equipment - personal protection equipment - personal protective equipment - pipeline equipment - pipeline-laying equipment - pipeline-scraping equipment - pneumatic equipment - pile-driving equipment - piling equipment - portable jacking equipment - postprocess gaging equipment - preparatory machining equipment - presetting equipment - primary equipment - primary machining equipment - process control monitoring equipment - process equipment - process monitoring equipment - processing equipment - production equipment - production test equipment - professional drilling equipment - protective equipment - proving-and-indicating equipment - pulling-and-running equipment - pump-and-compressor equipment - pumping equipment - quarry equipment - reconditioning equipment - redundant equipment - refrigeration equipment - rejected equipment - reliable equipment - remote control equipment - remove an equipment - repair equipment - repairable equipment - reserve equipment - residential equipment - retrofit equipment - rippers equipment - road-building equipment - rope-suspended boom equipment - rotating equipment - round trip equipment - safeguarding equipment - safety equipment - safety-survival equipment - secondary equipment - self-balancing equipment - sensing equipment - service checkout equipment - service equipment - snow-cleaning equipment - snow-handling equipment - spare equipment - spark erosion equipment - special support equipment - special test equipment - standalone equipment - standard equipment - standby equipment - supervisory equipment - supplementary equipment - support equipment - supporting equipment - surface-measuring equipment - swarf-handling equipment - tank cleaning equipment - telescopic equipment - test equipment - test-and-maintenance equipment - testing equipment - tool equipment - tool-holding equipment - tooling equipment - tool-setting equipment - touch-probe inspection equipment - towing equipment - tracer equipment - traction-type equipment - training equipment - transferring equipment - transport equipment - transportation equipment - turning gaging equipment - unattended equipment - underground equipment - universal equipment - unrepairable equipment - up-to-date construction equipment - used equipment - utility equipment - value-added equipment - vandalproof equipment - vehicle greasing equipment

- ventilating equipment

- video-measuring equipment

- warehousing equipment - waste-minimization equipment - water-fed equipment - water-purification equipment - water quality monitoring equipment - water-treatment equipment - weed-control equipment - weighing equipment - weld deposition equipment - welding equipment - welding deposition equipment - wheel alignment equipment - work-holding equipment - workover equipment

Cartwright, Revd Edmund

SUBJECT AREA: Agricultural and food technology, Textiles

[br]

b. 24 April 1743 Marnham, Nottingham, England

d. 30 October 1823 Hastings, Sussex, England

[br]

English inventor of the power loom, a combing machine and machines for making ropes, bread and bricks as well as agricultural improvements.

[br]

Edmund Cartwright, the fourth son of William Cartwright, was educated at Wakefield Grammar School, and went to University College, Oxford, at the age of 14. By special act of convocation in 1764, he was elected Fellow of Magdalen College. He married Alice Whitaker in 1772 and soon after was given the ecclesiastical living of Brampton in Derbyshire. In 1779 he was presented with the living of Goadby, Marwood, Leicestershire, where he wrote poems, reviewed new works, and began agricultural experiments. A visit to Matlock in the summer of 1784 introduced him to the inventions of Richard Arkwright and he asked why weaving could not be mechanized in a similar manner to spinning. This began a remarkable career of inventions.

Cartwright returned home and built a loom which required two strong men to operate it. This was the first attempt in England to develop a power loom. It had a vertical warp, the reed fell with the weight of at least half a hundredweight and, to quote Gartwright's own words, "the springs which threw the shuttle were strong enough to throw a Congreive [sic] rocket" (Strickland 19.71:8—for background to the "rocket" comparison, see Congreve, Sir William). Nevertheless, it had the same three basics of weaving that still remain today in modern power looms: shedding or dividing the warp; picking or projecting the shuttle with the weft; and beating that pick of weft into place with a reed. This loom he proudly patented in 1785, and then he went to look at hand looms and was surprised to see how simply they operated. Further improvements to his own loom, covered by two more patents in 1786 and 1787, produced a machine with the more conventional horizontal layout that showed promise; however, the Manchester merchants whom he visited were not interested. He patented more improvements in 1788 as a result of the experience gained in 1786 through establishing a factory at Doncaster with power looms worked by a bull that were the ancestors of modern ones. Twenty-four looms driven by steam-power were installed in Manchester in 1791, but the mill was burned down and no one repeated the experiment. The Doncaster mill was sold in 1793, Cartwright having lost £30,000, However, in 1809 Parliament voted him £10,000 because his looms were then coming into general use.

In 1789 he began working on a wool-combing machine which he patented in 1790, with further improvements in 1792. This seems to have been the earliest instance of mechanized combing. It used a circular revolving comb from which the long fibres or "top" were. carried off into a can, and a smaller cylinder-comb for teasing out short fibres or "noils", which were taken off by hand. Its output equalled that of twenty hand combers, but it was only relatively successful. It was employed in various Leicestershire and Yorkshire mills, but infringements were frequent and costly to resist. The patent was prolonged for fourteen years after 1801, but even then Cartwright did not make any profit. His 1792 patent also included a machine to make ropes with the outstanding and basic invention of the "cordelier" which he communicated to his friends, including Robert Fulton, but again it brought little financial benefit. As a result of these problems and the lack of remuneration for his inventions, Cartwright moved to London in 1796 and for a time lived in a house built with geometrical bricks of his own design.

Other inventions followed fast, including a tread-wheel for cranes, metallic packing for pistons in steam-engines, and bread-making and brick-making machines, to mention but a few. He had already returned to agricultural improvements and he put forward suggestions in 1793 for a reaping machine. In 1801 he received a prize from the Board of Agriculture for an essay on husbandry, which was followed in 1803 by a silver medal for the invention of a three-furrow plough and in 1805 by a gold medal for his essay on manures. From 1801 to 1807 he ran an experimental farm on the Duke of Bedford's estates at Woburn.

From 1786 until his death he was a prebendary of Lincoln. In about 1810 he bought a small farm at Hollanden near Sevenoaks, Kent, where he continued his inventions, both agricultural and general. Inventing to the last, he died at Hastings and was buried in Battle church.

[br]

Principal Honours and Distinctions

Board of Agriculture Prize 1801 (for an essay on agriculture). Society of Arts, Silver Medal 1803 (for his three-furrow plough); Gold Medal 1805 (for an essay on agricultural improvements).

Bibliography

1785. British patent no. 1,270 (power loom).

1786. British patent no. 1,565 (improved power loom). 1787. British patent no. 1,616 (improved power loom).

1788. British patent no. 1,676 (improved power loom). 1790, British patent no. 1,747 (wool-combing machine).

1790, British patent no. 1,787 (wool-combing machine).

1792, British patent no. 1,876 (improved wool-combing machine and rope-making machine with cordelier).

Further Reading

M.Strickland, 1843, A Memoir of the Life, Writings and Mechanical Inventions of Edmund Cartwright, D.D., F.R.S., London (remains the fullest biography of Cartwright).

Dictionary of National Biography (a good summary of Cartwright's life). For discussions of Cartwright's weaving inventions, see: A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London; R.L. Hills, 1970, Power in the Industrial Revolution, Manchester. F.Nasmith, 1925–6, "Fathers of machine cotton manufacture", Transactions of the

Newcomen Society 6.

H.W.Dickinson, 1942–3, "A condensed history of rope-making", Transactions of the Newcomen Society 23.

W.English, 1969, The Textile Industry, London (covers both his power loom and his wool -combing machine).

RLH

Grant, George Barnard

SUBJECT AREA: Electronics and information technology

[br]

b. 21 December 1849 Farmingdale, Gardiner, Maine, USA

d. 16 August 1917 Pasadena, California, USA

[br]

American mechanical engineer and inventor of Grant's Difference Engine.

[br]

George B.Grant was descended from families who came from Britain in the seventeenth century and was educated at the Bridgton (Maine) Academy, the Chandler Scientific School of Dartmouth College and the Lawrence Scientific School of Harvard College, where he graduated with the degree of BS in 1873. As an undergraduate he became interested in calculating machines, and his paper "On a new difference engine" was published in the American Journal of Science in August 1871. He also took out his first patents relating to calculating machines in 1872 and 1873. A machine of his design known as "Grant's Difference Engine" was exhibited at the Centennial Exposition in Philadelphia in 1876. Similar machines were also manufactured for sale; being sturdy and reliable, they did much to break down the prejudice against the use of calculating machines in business. Grant's work on calculating machines led to a requirement for accurate gears, so he established a machine shop for gear cutting at Charlestown, Massachusetts. He later moved the business to Boston and incorporated it under the name of Grant's Gear Works Inc., and continued to control it until his death. He also established two other gear-cutting shops, the Philadelphia Gear Works Inc., which he disposed of in 1911, and the Cleveland Gear Works Inc., which he also disposed of after a few years. Grant's commercial success was in connection with gear cutting and in this field he obtained several patents and contributed articles to the American Machinist. However, he continued to take an interest in calculating machines and in his later years carried out experimental work on their development.

[br]

Bibliography

1871, "On a new difference engine", American Journal of Science (August). 1885, Chart and Tables for Bevel Gears.

1885, A Handbook on the Teeth of Gear Wheels, Boston, Mass.

1891, Odontics, or the Theory and Practice of the Teeth of Gears, Lexington, Mass.

Further Reading

R.S.Woodbury, 1958, History of the Gear-cutting Machine, Cambridge, Mass, (describes his gear-cutting machine).

RTS