-
121 facility
1) средство; устройство; приспособление; оборудование2) сооружение; комплекс3) мн. ч. условия; возможности; удобства; средства•- cargo handling facility - community facilities - discharge facility - diversion facility - effluent-disposal facilities - erection facilities - gas supply facility - ground facilities - hydraulic facilities - lighting facilities - power facility - pumping facility - recreational facilities - technical facilities and instrumentation of ADMSB - sewage-purification facilities - sport facilities - treatment facilities - urban water treatment facilities - waste treatment facility - water treatment facility* * *устройство; приспособление; средство; pl аппаратура; технические сооружения- berthing facilitiesfacilities for handicapped — обустройство города, учитывающее интересы инвалидов
- cold store facility
- communication facilities
- community facilities
- control facilities
- drainage facilities
- fish-passing facilities
- lighting facilities
- municipal facilities
- navigation facilities
- offstreet parking facilities
- production facilities
- public facilities
- storage facilities
- terminal facilities
- transportation facilities
- treatment facilities
- underground hydro-pumped storage facility
- water-supply facilities -
122 stress
1) (механическое) напряжение; напряжённое состояние; условное напряжение2) нагрузка, усилие3) гидроудар4) воздействие5) нагрузка на единицу площади, интенсивность нагрузки, удельная нагрузка•- actual stress - admissible stress - advancing load stress - allowable stress - alternate stress - applied stress - arch stress - axial stress - bar stress - basic stress - bearing stress - belt stresses - bending stress - blow stress - bond stress - braking stress - breaking stress - calculated stress - chord stress - circular symmetrical stress - combined stress - completely reversed stresses - complex stress - compressive stress - compressive stress in bending - concrete stress - constant stress - cooling stress - couple stress - crack stress - crackforming stress - crippling stress - critical stress - critical compressive stress - cross-bending stress - cyclical stresses - dead stress - dead-load stress - design stress - direct stress - discontinuity stress - downward stress - dynamic stress - ecological stress - edge stress - effective stress - elastic stress - engineering stress - erection stress - external stress - fabrication stress - failing stress - fatigue stress - fatigue limit stress - fibre stress - final stress - flexural stress - floor stress - fluctuating stresses - friction-induced stress - functional stress - gravity stress - ground stress - handling stress - heat stress - hoist stresses - hoop stress - horizontal stress - impact stress - indirect stress - induced stress - inherent stresses - initial stress - intermediate stress - internal stress - jacking stress - lateral stress - limiting maximum stress - linear stress - live load stress - load stress - local stresses - locked-up stresses - longitudinal stress - mechanical stress - net stress - neutral stress - normal stress - operating stress - operational stress - permissible stress - plane stress - point-load stress - primary stress - principal stresses - proof stress - radial stress - reinforcement stresses - relaxation of stresses - repeated stresses - residual stress - reverse stress - rupture stress - safe stress - secondary stress - shearing stress - shock stress - simple stress - snow load stress - specific stress - static stress - subsidiary stress - surface stress - sustained stress - sway stress - tangential stress - temperature stress - tensile stress - thermal stress - thermal stress on structure - three-dimensional stress - time-dependant stress - torsional stress - total stress - transverse stress - true stress - twisting stress - ultimate stress - uniaxial stress - unit stress - unsafe stress - varying stress - vibratory stress - volumetric stress - water stress - wave stress - welding stress - wheel-load stress - wind stress - working stress - yield stress - yield point stressstress due to prestress — усилие ( в бетоне), вызванное предварительным напряжением
* * *1. (внутреннее) усилие, внутренняя сила2. (механическое) напряжение3. нагрузка на единицу площади, интенсивность нагрузки, удельная нагрузкаstress acting away from the joint — усилие ( в элементе фермы), действующее от узла
stresses arising from bending and axial loading — напряжения, возникающие от поперечного изгиба и действия продольных сил
stress constant across the section — напряжение, постоянное по всему сечению
stress due to prestress — усилие обжатия бетона; напряжение в бетоне, вызванное обжатием
stresses due to wind forces — напряжения от сил ветра, напряжения от ветровой нагрузки
stresses induced by loads — напряжения, вызванные нагрузкой [нагружением] ( в отличие от температурных напряжений)
stress in reinforcement — напряжение [усилие] в арматуре
stresses in truss components [in truss members] — усилия в стержнях [элементах фермы]
stress resolved into two components — напряжение, разложенное на две составляющие
stress varying from point to point — напряжение, меняющееся от точки к точке ( сечения элемента)
- actual stressstresses with the elastic limit — напряжения, не превышающие предела упругости; напряжения в упругой области
- additional stress
- allowable stress
- allowable unit stress
- alternate stress
- anchorage bond stress
- average stress
- axial stress
- bar stress
- bearing unit stress
- bearing stress
- belt stress
- bending stress
- bending failure stress
- biaxial stress
- blow stress
- bond stress
- bottom-chord stress
- boundary stress
- breaking stress
- buckling stress
- calculated stress
- circumferential unit stress
- circumferential stress
- combined stresses
- combined bearing, bending, and shear stresses
- combined shear and bending stress
- compression stress
- compressive stress in bending
- concentrated-load stress
- constant stress
- crack-inducing stress
- crippling stress
- critical stress
- crushing stress
- cycle stress
- dead load stress
- design stress
- development bond stress
- deviation stress
- deviator stress
- direct stress
- drying shrinkage stresses
- dynamic stress
- edge stress
- effective stress
- equivalent stress
- erection stress
- extreme fiber stress
- extreme stress
- failure stress
- fatigue stress
- fiber stress
- final stress
- flexible stress
- floor stress during operation
- floor stress when climbing
- flow stress
- fluctuating stresses
- fracture stress
- freezing stresses
- gravity stress
- handling stresses
- high localized stresses
- hoop stress
- hydrostatic stress
- ideal main stress
- impact stresses
- initial stresses
- intergranular stress
- intermediate principal stress
- jacking stress
- larger principal stress
- limiting stresses permitted in the standard
- linearly varying stresses
- live-load stress
- local stresses
- local bond stress
- longitudinal stress
- main stress
- maximum stress
- maximum allowable stress
- maximum shearing stress
- mean stress
- mean cycle stress
- mean fatigue stress
- membrane stresses
- meridian stress
- negative normal stress
- neutral stress
- normal stress
- octahedral normal stress
- octahedral shear stress
- peak stress
- permissible stress
- plate stresses
- point-load stress
- positive normal stress
- primary stress
- principal stresses
- principal tensile stress
- proof stress
- proof stress at 0.2 percent set
- pulsating stress
- radial stress
- radial shearing stress
- reduced main stress
- reinforcement stress
- repeated stress
- residual stress
- reversed stress
- rupture stress
- safe stress
- secondary stresses
- service stress
- settlement stresses
- shear stress
- shear stresses on oblique planes
- shear buckling stress
- shearing stress
- shrinkage-related stress
- shrinkage stress
- smaller principal stress
- spherical stress
- splitting tensile stress
- static stress
- surface stress
- tangential stress
- temperature stress
- temporary stress
- tensile stress
- tensile stress due to bending
- thermal stress
- timber stresses
- time-dependent stress
- top-chord stress
- torsional stress
- total stress
- transverse bending stress in flange
- true stress
- truss stresses
- truss stresses determined by method of sections
- twisting stress
- ultimate stress
- ultimate shear stress
- ultimate tensile stress
- unit stress
- unit stress produced by design loads
- unrelieved stress
- working stress
- yield stress -
123 plant
1) агрегат; установка2) завод; фабрика; предприятие3) растение || сажать растения4) станция5) авт. объект (управления)•- integrated metallurgical plant - tobacco processing plant -
124 system
1) система; комплекс2) совокупность•- absolutely consistent system - absolutely direct indecomposable system - absolutely free system - absolutely irreducible system - absolutely isolated system - allowable coordinate system - almost linear system - ample linear system - artificial feel system - automatic block system - automatic deicing system - binary relational system - binary-coded decimal system - block tooling system - Cartesian coordinate system - completely controllable system - completely ergodic system - completely hyperbolic system - completely identifiable system - completely integrable system - completely irreducible system - completely regular system - completely stable system - completely stratified system - complex number system - conical coordinate system - derivational formal system - differential equation system - differential selsyn system - digital counting system - digital transmission system - elliptic coordinate system - elliptic cylindrical coordinate system - externally inconsistent system - finite state system - finitely axiomatizable system - finitely presented system - fully characteristic quotient system - fundamental system of solutions - hydraulic lift system - integrated switching system - isomorphically embedded system - kernel normal system - linearly dependent system - linearly independent system - live hydraulic system - locking protection system - meteor-burst communication system - modular programming system - parabolic cylindrical coordinate system - permanent four-wheel drive system - pure independent system - radio telephone system - reactor protection system - real number system - receiver-amplifier crioelectric system - remote-cylinder hydraulic system - semantically consistent system - simply consistent system - simply incomplete system - simply ordered system - spherical coordinate system - strongly multiplicative system - structurally stable system - sufficiently general coordinate system - system of frequency curves - system of rational numbers - time multiplex system - time-division multiplex system - uniformly complete system - univalent system of notation - universal system of notation - weakly closed system - weighted number system -
125 Bedson, George
SUBJECT AREA: Metallurgy[br]b. 3 November 1820 Sutton Coldfield, Warwickshire, Englandd. 12 December 1884 Manchester (?), England[br]English metallurgist, inventor of the continuous rolling mill.[br]He acquired a considerable knowledge of wire-making in his father's works before he took a position in 1839 at the works of James Edleston at Warrington. From there, in 1851, he went to Manchester as Manager of Richard Johnson \& Sons' wire mill, where he remained for the rest of his life. It was there that he initiated several important improvements in the manufacture of wire. These included a system of circulating puddling furnace water bottoms and sides, and a galvanizing process. His most important innovation, however, was the continuous mill for producing iron rod for wiredrawing. Previously the red-hot iron billets had to be handled repeatedly through a stand or set of rolls to reduce the billet to the required shape, with time and heat being lost at each handling. In Bedson's continuous mill, the billet entered the first of a succession of stands placed as closely to each other as possible and emerged from the final one as rod suitable for wiredrawing, without any intermediate handling. A second novel feature was that alternate rolls were arranged vertically to save turning the piece manually through a right angle. That improved the quality as well as the speed of production. Bedson's first continuous mill was erected in Manchester in 1862 and had sixteen stands in tandem. A mill on this principle had been patented the previous year by Charles While of Pontypridd, South Wales, but it was Bedson who made it work and brought it into use commercially. A difficult problem to overcome was that as the piece being rolled lengthened, its speed increased, so that each pair of rolls had to increase correspondingly. The only source of power was a steam engine working a single drive shaft, but Bedson achieved the greater speeds by using successively larger gear-wheels at each stand.Bedson's first mill was highly successful, and a second one was erected at the Manchester works; however, its application was limited to the production of small bars, rods and sections. Nevertheless, Bedson's mill established an important principle of rolling-mill design that was to have wider applications in later years.[br]Further ReadingObituary, 1884, Journal of the Iron and Steel Institute 27:539–40. W.K.V.Gale, 1969, Iron and Steel, London: Longmans, pp. 81–2.LRD -
126 Vitruvius Pollio
SUBJECT AREA: Architecture and building[br]b. early first century BCd. c. 25 BC[br]Roman writer on architecture and engineering subjects.[br]Nothing is known of Vitruvius apart from what can be gleaned from his only known work, the treatise De architectura. He seems to have been employed in some capacity by Julius Caesar and continued to serve under his heir, Octavianus, later Emperor Augustus, to whom he dedicated his book. It was written towards the end of his life, after Octavianus became undisputed ruler of the Empire by his victory at Actium in 31 BC, and was based partly on his own experience and partly on earlier, Hellenistic, writers.The De architectura is divided into ten books. The first seven books expound the general principles of architecture and the planning, design and construction of various types of building, public and domestic, including a consideration of techniques and materials. Book 7 deals with interior decoration, including stucco work and painting, while Book 8 treats water supply, from the location of sources to the transport of water by aqueducts, tunnels and pipes. Book 9, after a long and somewhat confused account of the astronomical theories of the day, describes various forms of clock and sundial. Finally, Book 10 deals with mechanical devices for handling building materials and raising and pumping water, for which Vitruvius draws on the earlier Greek authors Ctesibius and Hero.Although this may seem a motley assembly of subjects, to the Roman architect and builder it was a logical compendium of the subjects he was expected to know about. At the time, Vitruvius' rigid rules for the design of buildings such as temples seem to have had little influence, but his accounts of more practical matters of building materials and techniques were widely used. His illustrations to the original work were lost in antiquity, for no later manuscript includes them. Through the Middle Ages, manuscript copies were made in monastic scriptoria, although the architectural style in vogue had little relevance to those in Vitruvius: these came into their own with the Italian Renaissance. Alberti, writing the first great Renaissance treatise on architecture from 1452 to 1467, drew heavily on De architectura; those who sought to revive the styles of antiquity were bound to regard the only surviving text on the subject as authoritative. The appearance of the first printed edition in 1486 only served to extend its influence.During the sixteenth and seventeenth centuries, Vitruvius was used as a handbook for constructing machines and instruments. For the modern historian of technology and architecture the work is a source of prime importance, although it must be remembered that the illustrations in the early printed editions are of contemporary reproductions of ancient devices using the techniques of the time, rather than authentic representations of ancient technology.[br]BibliographyOf the several critical editions of De architectura there are the Teubner edition, 1899. ed. V.Rose, Leipzig; the Loeb Classical Library edition, 1962, ed. F.Granger, London: Heinemann, (with English trans. and notes); and the Collection Guillaume Budé with French trans. and full commentary, 10 vols, Paris (in progress).Further ReadingApart from the notes to the printed editions, see also: H.Plommer, 1973, Vitruvius and Later Roman Building Manuals, London. A.G.Drachmann, 1963, The Mechanical Technology of Greek and Roman Antiquity Copenhagen and London.S.L.Gibbs, 1976, Greek and Roman Sundials, New Haven and London.LRD -
127 capacity
- capacity
- n1. производительность
2. грузоподъёмность
3. вместимость
4. мощность
5. способность ( материала)
6. электрическая ёмкость
7. подача (напр. насоса)
8. расход, пропускная способность
9. объём жидкости в сосуде, заполненном на 75 мм ниже переливного отверстия или верхнего края ( в сантехнике)
10. транспортирующая способность ( водного потока при переносе наносов)
- capacity of stream
- absolute traffic capacity
- absorbent capacity
- actual capacity
- actual carrying capacity
- adequate load-carrying capacity
- aerodrome handling capacity
- air capacity
- air carrying capacity
- airport capacity
- allowable bearing capacity
- apparent specific heat capacity
- average annual working capacity
- bearing capacity
- boiler capacity
- bucket capacity
- carrying capacity
- carrying capacity of a line
- channel capacity
- cooling capacity
- covering capacity
- damping capacity
- deformation capacity
- dehumidifying capacity
- delivery capacity
- design capacity
- digging capacity of power shovels
- discharge capacity
- dust holding capacity
- energy-absorption capacity
- erecting equipment capacity
- exchange capacity
- exchange capacity of ion exchanger
- fabricating capacity
- fabricating plant capacity
- fan capacity
- field capacity
- filter capacity
- flood absorption capacity
- gate capacity
- gross storage capacity
- hauling capacity
- heat capacity
- heating capacity
- heat storage capacity
- highway traffic capacity
- hoisting capacity
- holding capacity
- hourly capacity
- humidification capacity
- hydroscopic capacity
- idle capacity
- intersection capacity
- inverted capacity
- ion-exchange capacity
- labor capacity
- lane capacity
- lateral capacity of pile
- lifting capacity
- loading capacity
- load capacity
- load-carrying capacity
- moisture capacity
- nominal capacity
- oxidation capacity
- oxygenating capacity
- parking capacity
- pile load capacity
- pile capacity
- pipe capacity
- possible capacity
- posted capacity
- practical runway capacity
- production capacity
- radiating capacity
- rated capacity
- rated capacity of jack
- rated pumping capacity
- refrigerating capacity
- regulating capacity
- regulation carrying capacity
- reservoir capacity
- rotation capacity
- runway capacity
- saturation runway capacity
- seating capacity
- sediment-carrying capacity
- skin resistance capacity
- slewing capacity
- solids take-up capacity
- specific heat capacity
- steam-generating capacity
- storage capacity
- strain capacity
- strength-developing capacity
- subsoil bearing capacity
- suction capacity
- sustaining capacity
- tank capacity
- taxiway capacity
- terminal capacity
- thermal capacity
- thermal capacity of building
- throughput capacity
- total cooling capacity
- total storage capacity
- track capacity
- traffic capacity
- truck capacity
- ultimate bearing capacity
- ultimate carrying capacity of pile
- ultimate point capacity
- ultimate pullout capacity
- ultimate runway capacity
- ultimate static pile point capacity
- useful capacity
- visual airport weather runway departure capacity
- visual airport weather runway capacity
- volumetric heat capacity
- water-carrying capacity
- waterholding capacity
- waterproofing capacity
- water-retaining capacity
- wearing capacity
- wear capacity
- well capacity
- working capacity
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
-
128 unit
- unit
- n1. единица || единичный; удельный
2. единичный вектор
3. агрегат, установка
4. сборочная единица; узел; блок; элемент ( конструкции); комплект; секция ( подводного тоннеля)
- unit of area
- unit of length
- accommodation unit
- activated sludge unit
- aerated concrete floor unit
- aerator-clarifier unit
- air conditioning unit
- air cooling unit
- air curtain unit
- air handling unit
- air mixing unit
- air-operated grease unit
- air supply unit
- air-to-air heat recovery unit
- aluminum deck unit
- audible alarm unit
- basement dwelling unit
- boiler unit
- bridge unit
- British thermal unit
- building unit
- cladding unit
- compound units
- compressor unit
- concrete building unit
- concrete core unit
- concrete injection unit
- condensing unit
- cooling unit
- cooling and heating unit
- crawler power unit
- decentralized air heating unit
- disposal unit
- diversion unit
- door unit
- door and frame packaged unit
- drainage fixture unit
- drying unit
- dwelling unit
- factory precast unit
- fan unit
- fan-assisted warm air unit
- fan coil unit
- filter unit
- fixture unit
- floor building unit
- floor unit
- folding bed unit
- four-wheeled power unit
- free delivery-type air conditioning unit
- free delivery-type unit
- gas control unit
- girder-deck unit
- glass building unit
- glass unit
- heating unit
- heat reclaim unit
- high pressure terminal unit
- indirect fan-assisted warm air heating unit
- induction unit
- industrially produced modular unit
- insulating glass unit
- intensive cure unit
- interlocking concrete units
- inverted U-shaped concrete unit
- kitchen building block unit
- latch unit
- living unit
- low pressure induction unit
- masonry unit
- mass-produced structural units
- modular unit
- modular masonry unit
- molded concrete unit
- multicast gang unit
- multizone unit
- neighborhood unit
- nonconforming unit
- packaged unit
- parallel wire unit
- passenger car unit
- plumbing unit
- post-tension unit
- power unit
- precast unit
- precast prestressed concrete unit
- prefabricated unit
- prefab unit
- prefabricated bathroom unit
- pressurization unit
- pump unit
- refrigerating unit
- reheat unit
- reheat induction unit
- residential unit
- roof extract unit
- roof top unit
- room unit
- sealed condensing unit
- sealed double glazed unit
- secondary unit
- self-contained cooling unit
- single duct unit
- sink unit
- solid masonry unit
- solids-control unit
- stabilizing unit attached to loader
- standby unit
- steel plate unit
- straightening unit
- structural unit
- supply fixture unit
- terminal unit
- three-bedroomed dwelling unit
- three-bedroom dwelling unit
- tile trim units
- turbidity unit
- two-wheeled power unit
- unitized unit
- unitized bathroom and lavatory block unit
- unitized kitchen unit
- urban unit
- warm air heating unit
- waste-disposal unit
- water correction unit
- water meter unit
- WC-and-bathroom unit
- window unit
- window and frame packaged unit
- zone terminal unit
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
См. также в других словарях:
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