-
1 parallel wires
параллельные провода
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > parallel wires
-
2 parallel wires
двухпроводная воздушная линия передачиБольшой англо-русский и русско-английский словарь > parallel wires
-
3 parallel wires
двухпроводная воздушная линия передачи -
4 parallel wires
2) Телекоммуникации: двухпроводная линия3) Электротехника: параллельные провода -
5 parallel wires
-
6 parallel wires
English-Russian dictionary of modern telecommunications > parallel wires
-
7 parallel wires
English-Russian dictionary of Information technology > parallel wires
-
8 tendon of parallel wires
- tendon of parallel wires
- n
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
Англо-русский словарь строительных терминов > tendon of parallel wires
-
9 tendon of parallel wires
Строительство: арматурный пучокУниверсальный англо-русский словарь > tendon of parallel wires
-
10 tendon of parallel wires
Англо-русский строительный словарь > tendon of parallel wires
-
11 parallel exposure
-
12 parallel-running
-
13 map parallel
-
14 wire
1) провод; проводник || проводной2) проводная связь || использовать проводную связь3) телеграф || телеграфировать4) телефон || пользоваться телефоном5) pl (электрическая) проводка, (электро)проводка6) устанавливать (электрическую) проводку, устанавливать (электро)проводку9) производить монтаж (напр. компонентов на печатной плате); монтировать (напр. компоненты на печатной плате)10) вчт шина11) телеграмма || отправлять телеграмму12) перекрестье•- address-read wire
- address-write wire
- aerial wire
- antenna wire
- antiflex flying wire
- assault wire
- bare wire
- bias wire
- bimetallic wire
- bit wire
- blue wire
- braided wire
- busbar wire
- cc wire
- conductive wire
- copper wire
- corona wire
- cotton-covered wire
- covered wire
- cross wires
- damping wires
- dead wire
- digit wire
- double-cotton-covered wire
- double-silk-covered wire
- drive wire
- drop wire
- dsc wire
- earthing wire
- enameled wire
- etched wire
- field wire
- filamentary wire
- fuse wire
- fusible wire
- guide wire
- guy wire
- hookup wire
- inhibit wire
- insulated wire
- interconnecting wires
- jumper wire
- lead wire
- lead-in wire
- Lecher wires
- litz wire
- litzendraht wire
- magnet wire
- magnetic-plated wire
- office wire
- open wire
- order wire
- overflow wires
- parallel wires
- phantom wire
- pilot wire
- plated wire
- plug wire
- print wire
- purple wire
- radio wire
- red wire
- resistance wire
- return wire
- rubber-covered wire
- sc wire
- scc wire
- sense wire
- shield wire
- shielded wire
- silk-covered wire
- single-cotton-covered wire
- slide wire
- solder wire
- stranded wire
- superconducting wire
- tinned wire
- twin wire
- twisted wire
- unifilar wire
- varnished wire
- write wire
- yellow wire -
15 wire
1) проволока || скреплять [связывать\] проволокой2) трос4) монтировать ( (электро) проводку или провода); прокладывать провода5) эл., вчт. шина6) проволочное соединение; проводное соединение || соединять [монтировать\] проволокой7) формировать (меж)соединения; выполнять разводку ( межсоединений)9) связь передавать по проводам•wire in coils — проволока в бухтах-
active wires
-
address wire
-
aerial contact wire
-
aerial wire
-
aluminum wire
-
aluminum-clad wire
-
alumoweld wire
-
ampere wires
-
anchor wire
-
annealed wire
-
antenna wire
-
armature binding wire
-
armoring wire
-
baling wire
-
barbed wire
-
bare wire
-
bead wire
-
bell wire
-
bethanized wire
-
bimetallic wire
-
binding wire
-
bit wire
-
black-drawn wire
-
black wire
-
bond wire
-
bonding wire
-
bracing wire
-
braided wire
-
brazing wire
-
bright wire
-
broken wire
-
bundle wires
-
busbar wire
-
carrying wire
-
catenary wire
-
ceramic wire
-
clad wire
-
clipped wire
-
coarse wire
-
coated wire
-
coils wire
-
cold-drawn wire
-
common wire
-
composite ground wire with optical fibers
-
composite wire
-
connecting wire
-
contact wire
-
control wire
-
copper wire
-
copper-clad wire
-
copper-coated wire
-
coppered wire
-
core wire
-
cotton-covered wire
-
cotton-enamel covered wire
-
covered wire
-
current-carrying wire
-
dead wire
-
dead-drawn wire
-
diamond impregnated wire
-
diamond wire
-
drawn wire
-
drop wire
-
dumet wire
-
duplex wire
-
earth wire
-
electrode wire
-
enameled wire
-
equipment wire
-
exploding wire
-
fastening wire
-
fiber-optic cored shield wire
-
field wire
-
filamentary wire
-
filler wire
-
finer wire
-
fishing wire
-
fixture wire
-
flameproof wire
-
flat wire
-
flexible shafting wire
-
flexible wire
-
flux-cored wire
-
fly wire
-
four-draft wire
-
fully galvanized wire
-
fuse wire
-
galvanized iron wire
-
galvanized wire
-
glazed wire
-
ground wire
-
guy wire
-
hard-drawn wire
-
heavy-gage wire
-
heavy wire
-
hookup wire
-
hot wire
-
idle wires
-
igniting wire
-
indented wire
-
inhibit wire
-
inlet wire
-
insulated ground wire
-
insulated wire
-
interconnecting wire
-
ionizer wire
-
iron-conduit wire
-
jumper wire
-
killed wire
-
knitting needle wire
-
lashing wire
-
latch guard wire
-
lead wire
-
lead-covered wire
-
lead-in wire
-
line wire
-
litzendraht wire
-
litz wire
-
live wire
-
magnet wire
-
magnetic wire
-
merchant wire
-
messenger wire
-
metallizing wire
-
metal-shielded wire
-
multifilament wire
-
nail wire
-
neutral wire
-
nichrome wire
-
nickeline wire
-
office wire
-
open wire
-
order wire
-
overhead wire
-
pan wire
-
paper-insulated wire
-
parallel wires
-
piano wire
-
pilot wire
-
plain wire
-
plow steel wire
-
plug wire
-
point wire
-
presser foot wire
-
prestressed concrete wire
-
printed wire
-
profiled wire
-
protective earth wire
-
pulling wire
-
radio wire
-
rectangular wire
-
reinforcing wire
-
relay wire
-
resistance wire
-
retrieving wire
-
return wire
-
rivet wire
-
rolled wire
-
rope wire
-
route wire
-
rubber-covered wire
-
screen wire
-
screened wire
-
screw wire
-
section wire
-
sheathed wire
-
shielded wire
-
shield wire
-
short-circuiting wire
-
signal wire
-
silicone wire
-
silk-covered wire
-
sky wire
-
slide wire
-
slow-burning wire
-
soft-down wire
-
solid wire
-
staple forming wire
-
static wire
-
stay wire
-
steel-aluminum wire
-
strain-sensitive wire
-
stranded wire
-
strand wire
-
stranded welding wire
-
stretching wire
-
superconducting wire
-
suspension wire
-
switch wire
-
tension wire
-
thermocouple wire
-
three-draft wire
-
tie wire
-
tinned wire
-
track-circuit wire
-
trapezoidal wire
-
trolley wire
-
tube wire
-
twin wire
-
twisted wire
-
uncoated wire
-
uninsulated wire
-
varnished wire
-
varnished-cambric wire
-
vent wire
-
welding wire
-
well measuring wire
-
wet-drawn wire
-
winding wire
-
woven wire
-
zinc-coated wire -
16 Preece, Sir William Henry
[br]b. 15 February 1834 Bryn Helen, Gwynedd, Walesd. 6 November 1913 Penrhos, Gwynedd, Wales[br]Welsh electrical engineer who greatly furthered the development and use of wireless telegraphy and the telephone in Britain, dominating British Post Office engineering during the last two decades of the nineteenth century.[br]After education at King's College, London, in 1852 Preece entered the office of Edwin Clark with the intention of becoming a civil engineer, but graduate studies at the Royal Institution under Faraday fired his enthusiasm for things electrical. His earliest work, as connected with telegraphy and in particular its application for securing the safe working of railways; in 1853 he obtained an appointment with the Electric and National Telegraph Company. In 1856 he became Superintendent of that company's southern district, but four years later he moved to telegraph work with the London and South West Railway. From 1858 to 1862 he was also Engineer to the Channel Islands Telegraph Company. When the various telegraph companies in Britain were transferred to the State in 1870, Preece became a Divisional Engineer in the General Post Office (GPO). Promotion followed in 1877, when he was appointed Chief Electrician to the Post Office. One of the first specimens of Bell's telephone was brought to England by Preece and exhibited at the British Association meeting in 1877. From 1892 to 1899 he served as Engineer-in-Chief to the Post Office. During this time he made a number of important contributions to telegraphy, including the use of water as part of telegraph circuits across the Solent (1882) and the Bristol Channel (1888). He also discovered the existence of inductive effects between parallel wires, and with Fleming showed that a current (thermionic) flowed between the hot filament and a cold conductor in an incandescent lamp.Preece was distinguished by his administrative ability, some scientific insight, considerable engineering intuition and immense energy. He held erroneous views about telephone transmission and, not accepting the work of Oliver Heaviside, made many errors when planning trunk circuits. Prior to the successful use of Hertzian waves for wireless communication Preece carried out experiments, often on a large scale, in attempts at wireless communication by inductive methods. These became of historic interest only when the work of Maxwell and Hertz was developed by Guglielmo Marconi. It is to Preece that credit should be given for encouraging Marconi in 1896 and collaborating with him in his early experimental work on radio telegraphy.While still employed by the Post Office, Preece contributed to the development of numerous early public electricity schemes, acting as Consultant and often supervising their construction. At Worcester he was responsible for Britain's largest nineteenth-century public hydro-electric station. He received a knighthood on his retirement in 1899, after which he continued his consulting practice in association with his two sons and Major Philip Cardew. Preece contributed some 136 papers and printed lectures to scientific journals, ninety-nine during the period 1877 to 1894.[br]Principal Honours and DistinctionsCB 1894. Knighted (KCB) 1899. FRS 1881. President, Society of Telegraph Engineers, 1880. President, Institution of Electrical Engineers 1880, 1893. President, Institution of Civil Engineers 1898–9. Chairman, Royal Society of Arts 1901–2.BibliographyPreece produced numerous papers on telegraphy and telephony that were presented as Royal Institution Lectures (see Royal Institution Library of Science, 1974) or as British Association reports.1862–3, "Railway telegraphs and the application of electricity to the signaling and working of trains", Proceedings of the ICE 22:167–93.Eleven editions of Telegraphy (with J.Sivewright), London, 1870, were published by 1895.1883, "Molecular radiation in incandescent lamps", Proceedings of the Physical Society 5: 283.1885. "Molecular shadows in incandescent lamps". Proceedings of the Physical Society 7: 178.1886. "Electric induction between wires and wires", British Association Report. 1889, with J.Maier, The Telephone.1894, "Electric signalling without wires", RSA Journal.1898, "Aetheric telegraphy", Proceedings of the Institution of Electrical Engineers.Further ReadingJ.J.Fahie, 1899, History of Wireless Telegraphy 1838–1899, Edinburgh: Blackwood. E.Hawkes, 1927, Pioneers of Wireless, London: Methuen.E.C.Baker, 1976, Sir William Preece, F.R.S. Victorian Engineer Extraordinary, London (a detailed biography with an appended list of his patents, principal lectures and publications).D.G.Tucker, 1981–2, "Sir William Preece (1834–1913)", Transactions of the Newcomen Society 53:119–36 (a critical review with a summary of his consultancies).GW / KFBiographical history of technology > Preece, Sir William Henry
-
17 tendon
1) арматурный напрягаемый элемент; арматурный пучок ( проволок)2) мн. ч. тросы натяжения ( преднапряжение), пучковая арматура•- bonded tendon - deflected tendon - post-tensioning tendon - prestressing tendon* * *элемент напрягаемой арматуры; арматурный пучок- tendon of parallel wires
- bonded tendon
- deflected tendon
- eccentric tendon
- grouted tendon
- harped tendon
- nonconcordant tendon
- post-tensioning tendon
- prestressing tendon
- unbonded tendon -
18 Flechsig, W.
SUBJECT AREA: Electronics and information technology[br]fl. c.1938 Germany[br]German engineer notable for early patents that foreshadowed the development of the shadowmask colour cathode ray tube.[br]In 1938, whilst working for a German electrical company, Flechsig filed a patent in which he described the use of an array of stretched parallel wires to control the landing of either one or three electron beams on separate red, green and blue phosphor stripes within a single cathode ray tube. Whilst the single-beam arrangement required subsidiary deflection to alternate the beam landing angle, the three-beam version effectively used the wires to "mask" the landing of the electron beams so that each one only illuminated the relevant colour phosphor stripes. Although not developed at the time, the concept anticipated the subsequent invention of the shadowmask tube by RCA in the early 1950s and, even more closely, the development of the Sony Trinitron some years later.[br]Bibliography1938, German patent no. 736, 575.1941, French patent no. 866, 065.Further ReadingE.W.Herold, 1976, "A history of colour television displays", Proceedings of the Institute of Electrical and Electronics Engineers 64:1,331.K.G.Freeman, "The history of colour CRTs. A personal view", International Conference on the History of Television, Institution of Electrical Engineers Publication no. 271, p.38.KF -
19 tendon
- tendon
- nэлемент напрягаемой арматуры; арматурный пучок
- tendon of parallel wires
- bonded tendon
- deflected tendon
- eccentric tendon
- grouted tendon
- harped tendon
- nonconcordant tendon
- post-tensioning tendon
- prestressing tendon
- unbonded tendon
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
* * * -
20 tendon
элемент напрягаемой арматуры; арматурный пучокbonded tendon — напрягаемая арматурная прядь, имеющая сцепление с бетоном
grouted tendon — напрягаемая арматура, получившая сцепление с бетоном
nonconcordant tendon — напрягаемый пучок, не совпадающий с линией давления, создаваемого преднапряжением
post-tensioning tendon — напрягаемый элемент, натягиваемый на затвердевший бетон
tendon anchor — анкер арматуры; анкер оттяжки
- 1
- 2
См. также в других словарях:
Parallel ATA — ATA connector on the right, with two motherboard ATA sockets on the left. Type … Wikipedia
parallel — [par′ə lel΄, par′ələl] adj. [Fr parallèle < L parallelus < Gr parallēlos < para , side by side (see PARA 1) + allēlos, one another < allos, other: see ELSE] 1. extending in the same direction and at the same distance apart at every… … English World dictionary
Parallel SCSI — Centronics 50 SCSI plug Parallel SCSI (formally, SCSI Parallel Interface, or SPI) is one of the interface implementations in the SCSI family. In addition to being a data bus, SPI is a parallel electrical bus: There is one set of electrical… … Wikipedia
Parallel communication — In telecommunication and computer science, parallel communication is a method of sending several data signals simultaneously over a communication link (comprising of several wired channels in parallel) at one time. It contrasts with serial… … Wikipedia
Parallel data — A&V Transmission of data bits in groups along a collection of wires (called a bus). Analogous to the rows of a marching band passing a review point. A typical parallel bus may accommodate transmission of one 8 , 16 , or 32 bit byte at a time … Audio and video glossary
lecher wires — ˈleḵə(r) noun plural Usage: usually capitalized L Etymology: after Ernst Lecher died 1926 Austrian physicist : a pair of parallel wires so adjusted in length that the frequency of an electromagnetic wave may be determined from the position of… … Useful english dictionary
Lech|er wires — «lehkh uhr», Electronics. parallel wires used to measure the wave length of currents having high frequencies, as those produced by radio waves. ╂[< Ernst Lecher, 1856 1926, a German physicist] … Useful english dictionary
lecher wires — /lekh euhr/, Elect. parallel wires of such length and terminations that the system will resonate, producing standing waves, if the frequency of the excitation is correct. [1925 30; named after E. Lecher (d. 1926), Austrian physicist] * * * … Universalium
lecher wires — /ˈlɛkə waɪəz/ (say lekuh wuyuhz) plural noun parallel wires of such length and terminations that the system will resonate (i.e., standing waves will appear) if the frequency of the excitation is correct. {named after Ernst Lecher, 1856–1926,… …
Cross wires — Cross Cross (kr[o^]s), a. 1. Not parallel; lying or falling athwart; transverse; oblique; intersecting. [1913 Webster] The cross refraction of the second prism. Sir I. Newton. [1913 Webster] 2. Not accordant with what is wished or expected;… … The Collaborative International Dictionary of English
Parallax of the cross wires — Parallax Par al*lax, n. [Gr. ? alternation, the mutual inclination of two lines forming an angle, fr. ? to change a little, go aside, deviate; para beside, beyond + ? to change: cf. F. parallaxe. Cf. {Parallel}.] 1. The apparent displacement, or… … The Collaborative International Dictionary of English
