-
21 bridge
1) мост; путепровод; эстакада2) защитный козырёк (над входом, тротуаром)3) хомут; бугель, скоба4) перегородка, перемычка5) наводить мост, строить мост; перекрывать•cross section of bridge — поперечное сечение моста, ферма мостового крана
to delaunch a bridge — свёртывать ( временный) мост
- aqueduct bridge - arch bridge - arched bridge with struts - arched cantilever bridge - askew bridge - Bailey bridge - balance bridge - bascule bridge - bateau bridge - beam bridge - boat bridge - bottom road bridge - bowstring bridge - bowstring arch bridge - bowstring girder bridge - braced-chain suspension bridge - cable-braced bridge - cable-lift bascule bridge - cable stayed bridge - cable truss bridge - canal bridge - cantilever bridge - cantilever arch bridge - cantilever frame bridge - chain bridge - combination bridge - combined bridge - composite bridge - concrete girder bridge - continuous-beam bridge - conveyor bridge - crane bridge - curved bridge - deck bridge - deck-girder bridge - deck-type bridge - double swing bridge - double-leaf swing bridge - dry bridge - fire bridge - floating bridge - frame-type bridge - frame bridge with suspended span - free-arch bridge - handling bridge - hanging bridge - heat bridge - heel trunnion bascule bridge - high-level bridge - highway bridge - highway-railway bridge - hoist bridge - hollow girder bridge - I-beam bridge - intermediate span bridge - iron bridge - lattice bridge - leaf bridge - lift bridge - lifting bridge - lightweight prestressed concrete bridge - loading bridge - low-level bridge - low-water bridge - masonry bridge - movable bridge - multiple arch bridge - multiple span bridge - multispan bridge - oblique bridge - open bridge - opening bridge - orthotropic-plate bridge - overpass bridge - over bridge - pedestrian bridge - pile bridge - pipe bridge - plate girder bridge with plain web girders - pontoon bridge - prefabricated bridge - prestressed concrete bridge - pull-back draw bridge - railroad bridge - railway bridge - reinforced-concrete bridge - rigid frame bridge - riveted bridge - road bridge - road-cum-rail bridge - rolling bridge - rolling lift bridge - rotary bridge - scaffold bridge - scraper bridge - segmental bridge - simple span bridge - single-arch bridge - single-leaf bascule bridge - single-line bridge - single-line track bridge - skew bridge - slab-stringer bridge - spillway bridge - square bridge - steel bridge - steel concrete arch bridge - steel concrete arched bridge - steel truss bridge - stiffened suspension bridge - stone bridge - straight bridge - strut-framed bridge - suspension bridge - swing bridge - submersible bridge - temporary bridge - through bridge - timber bridge - timber trestle bridge - tipping bridge - toll bridge - top bridge - top-road bridge - transborder bridge - transfer bridge - travelling bridge - traversing bridge - trellis bridge - trestle bridge - truss bridge - tubular bridge - turn bridge - turnable bridge - turning bridge - underline bridge - unit construction bridge - unloading bridge - vehicular bridge - vertical-lift bridge - water-conduit bridge - welded bridge - wire bridge - wire suspension bridge - wooden bridgeto launch a bridge — наводить ( временный) мост
* * *1. мост; мостовой переход; путепровод; эстакада2. защитный козырёк (над входом, проходом, тротуаром)3. колосник сцены- aluminum bridge
- arch bridge
- Bailey bridge
- balance bridge
- balanced cantilever bridge
- bascule bridge
- bay bridge
- beam bridge
- below bridge
- bowstring girder bridge
- cable-stayed bridge
- cable-stayed girder bridge
- canal bridge
- cantilever bridge
- center-bearing swing bridge
- composite bridge
- composite-girder bridge
- concrete cable-stayed bridge
- continuous bridge
- continuous girder bridge
- continuous steel truss tied arch bridge
- covered bridge
- crane bridge
- curved bridge
- deck-type bridge
- deck bridge
- double-bascule bridge
- double leaf bascule bridge
- fixed arch bridge
- floating bridge
- frame-type bridge
- girder and slab bridge
- glulam bridge
- half-through bridge
- half-width bridge
- heat bridge
- heel trunnion bascule bridge
- high level bridge
- highway bridge
- hoist bridge
- hollow girder bridge
- ice bridge
- Irish bridge
- iron bridge
- lake bridge
- lift bridge
- lightweight prestressed concrete bridge
- loading bridge
- log bridge
- long span bridge
- low-level bridge
- low water bridge
- major bridge
- masonry bridge
- material-handling bridge
- military bridge
- minor bridge
- movable bridge
- movable-bascule bridge
- movable-swing bridge
- multilane bridge
- multiple-span bridge
- multispan balanced suspension bridge
- operating bridge
- orthotropic-deck bridge
- orthotropic steel plate deck bridge
- orthotropic plate deck bridge
- overpass bridge
- pedestrian bridge
- permanent bridge
- pile bridge
- pin-connected bridge
- pipeline bridge
- pontoon bridge
- post-tensioned prestressed concrete bridge
- prefabricated bridge
- prestressed concrete bridge
- prestressed concrete bifurcated box girder bridge
- prestressed segmental bridge
- prestressed wood bridge
- pretensioned prestressed concrete bridge
- railroad bridge
- reinforced bridge
- retractile draw bridge
- rigid frame bridge
- rim-bearing swing bridge
- river bridge
- riveted bridge
- road-cum-rail bridge
- rolled-beam bridge
- rolling-lift bascule bridge
- rolling-lift bridge
- scaffold bridge
- segmental box girder bridge
- service bridge
- short highway bridge
- short span steel bridge
- short span bridge
- sign bridge
- simple bridge
- simple I-beam bridge
- simply supported bridge
- single-bascule bridge
- single lane bridge
- single leaf bascule bridge
- single span bridge
- single track railway bridge
- skew bridge
- slab bridge
- slant-legged rigid-frame bridge
- square bridge
- steel bridge
- steel box-girder bridge
- steel cable-stayed bridge
- steel plate girder bridge
- steel shop-coated bridge
- steel tied-cable arch bridge
- steel truss bridge
- stiffened suspension bridge
- straight bridge
- strengthened highway bridge
- strengthened bridge
- submersible bridge
- suspension bridge
- swing bridge
- T-beam bridge
- temporary bridge
- temporary bypass bridge
- three-hinged arch bridge
- through bridge
- through-girder railway bridge
- tied-arch bridge
- timber bridge
- timber stringers-concrete deck bridge
- timber stringers-laminated deck bridge
- timber trestle bridge
- toll bridge
- transporter bridge
- trestle bridge
- trunnion-type bascule bridge
- trunnion bascule bridge
- truss bridge
- two-hinged arch bridge
- two-lane bridge
- vertical lift bridge
- welded bridge
- work bridge -
22 Wright, Frank Lloyd
SUBJECT AREA: Architecture and building[br]b. 8 June 1869 Richland Center, Wisconsin, USAd. 9 April 1959 Phoenix, Arizona, USA[br]American architect who, in an unparalleled career spanning almost seventy years, became the most important figure on the modern architectural scene both in his own country and far further afield.[br]Wright began his career in 1887 working in the Chicago offices of Adler \& Sullivan. He conceived a great admiration for Sullivan, who was then concentrating upon large commercial projects in modern mode, producing functional yet decorative buildings which took all possible advantage of new structural methods. Wright was responsible for many of the domestic commissions.In 1893 Wright left the firm in order to set up practice on his own, thus initiating a career which was to develop into three distinct phases. In the first of these, up until the First World War, he was chiefly designing houses in a concept in which he envisaged "the house as a shelter". These buildings displayed his deeply held opinion that detached houses in country areas should be designed as an integral part of the landscape, a view later to be evidenced strongly in the work of modern Finnish architects. Wright's designs were called "prairie houses" because so many of them were built in the MidWest of America, which Wright described as a "prairie". These were low and spreading, with gently sloping rooflines, very plain and clean lined, built of traditional materials in warm rural colours, blending softly into their settings. Typical was W.W.Willit's house of 1902 in Highland Park, Illinois.In the second phase of his career Wright began to build more extensively in modern materials, utilizing advanced means of construction. A notable example was his remarkable Imperial Hotel in Tokyo, carefully designed and built in 1916–22 (now demolished), with special foundations and structure to withstand (successfully) strong earthquake tremors. He also became interested in the possibilities of reinforced concrete; in 1906 he built his church at Oak Park, Illinois, entirely of this material. In the 1920s, in California, he abandoned his use of traditional materials for house building in favour of precast concrete blocks, which were intended to provide an "organic" continuity between structure and decorative surfacing. In his continued exploration of the possibilities of concrete as a building material, he created the dramatic concept of'Falling Water', a house built in 1935–7 at Bear Run in Pennsylvania in which he projected massive reinforced-concrete terraces cantilevered from a cliff over a waterfall in the woodlands. In the later 1930s an extraordinary run of original concepts came from Wright, then nearing 70 years of age, ranging from his own winter residence and studio, Taliesin West in Arizona, to the administration block for Johnson Wax (1936–9) in Racine, Wisconsin, where the main interior ceiling was supported by Minoan-style, inversely tapered concrete columns rising to spreading circular capitals which contained lighting tubes of Pyrex glass.Frank Lloyd Wright continued to work until four days before his death at the age of 91. One of his most important and certainly controversial commissions was the Solomon R.Guggenheim Museum in New York. This had been proposed in 1943 but was not finally built until 1956–9; in this striking design the museum's exhibition areas are ranged along a gradually mounting spiral ramp lit effectively from above. Controversy stemmed from the unusual and original design of exterior banding and interior descending spiral for wall-display of paintings: some critics strongly approved, while others, equally strongly, did not.[br]Principal Honours and DistinctionsRIBA Royal Gold Medal 1941.Bibliography1945, An Autobiography, Faber \& Faber.Further ReadingE.Kaufmann (ed.), 1957, Frank Lloyd Wright: an American Architect, New York: Horizon Press.H.Russell Hitchcock, 1973, In the Nature of Materials, New York: Da Capo.T.A.Heinz, 1982, Frank Lloyd Wright, New York: St Martin's.DY -
23 Monier, Joseph
[br]b. 1823 Franced. 1906 Paris, France[br]French gardener and one of the principal inventors of reinforced concrete.[br]Monier was a commercial gardener who in the course of his work was struck with the idea of inserting iron reinforcement in concrete tubs such as were used for growing orange trees. He patented this idea in 1867 and exhibited his invention the same year at the Paris Exposition. It soon occurred to him to apply the same principles to other engineering structures such as railway sleepers, pipes, floors, arches and bridges. In 1878 he took out a French patent for reinforced concrete beams and held numerous other patents for the material. Although he was not the only one to realize the benefits of combining a concrete girder or slab to resist compressive forces with iron or steel wires or rods to resist tensile stresses, "Das System Monier" was known as such by 1887 throughout Europe.[br]Further ReadingJ.W.De Courcy, 1987, "The emergence of reinforced concrete", Structural Engineer 65A: 316.IMcN -
24 design
1) конструкция; проект; план2) проектирование, конструирование3) расчёт; определение размеров4) конструктивный вариант, конструктивное решение5) художественное моделирование, художественное оформление6) проектировать; конструировать•- design of concrete mix - design of detailed planning - design of mixture - design of reinforced concrete frame building - alternate design - approved design - architectural design - aseismic design - balanced design - barrier-free design - bridge design - building design - cantilever design - civil-engineering design - codes of structural design - computer-aided design - concrete design - contract design - contractor design - curvature design - custom design - detailed contract design - detailed design stage - draft design - engineering design - environmental design - experimental design - fail-safe design - full-size design - further-edge design of cross section - housing development design - human settlement design - hydraulic design - individual design - industrial design - intelligent design - interactive design - landscape design - lateral-force design - limit design - mix design - mock-up method of design - modular design - multistage design work - pavement design - pilot design - plastic design - point design - preliminary design - probabalistic design - project design - prototype design - regional planning design - research design - seismic design - single-stage design work - sprung arch design - standard design - standardized design - step-by-step design - structural design - structural steel design - thermal design - town planning design - traffic island design - two-stage design work - type design - typical design - ultimate load design - urban design* * *1. конструкция2. план, замысел; проект, проектное решение3. чертёж, эскиз4. проектирование; расчёт5. дизайн || проектировать; рассчитыватьdesign on empirical basis — эмпирический расчёт, расчёт на эмпирической основе
- design of stiffened compression flangesdesign to limit state theory — расчёт, основанный на гипотезе предельных состояний; расчёт по предельным состояниям
- design of structural members
- design of structural steel
- design of structures
- design of welds
- allowable stress design
- alternate design
- architectural design
- basic design
- beam design
- building design
- city design
- civic design
- composite design
- computer-aided design
- concrete mix design for pumping
- construction joint design
- cost-efficient design
- critical-load design
- elastic design
- environmental design
- experimental design
- final design
- form design
- frame design
- frost capacity design
- fully rigid basis design
- geometric highway design
- hydraulic design
- industrial design
- integrated environmental design
- landscape design
- lateral-force design
- limit design
- limit-load design
- limit-state design
- load factor design
- maximum load design
- methods design
- mix design
- mix design with fly ash
- modified structural design
- modular design
- one-off design
- original design
- outline design
- pavement design
- plastic design
- plastic limit design
- post and lintel design
- probabilistic design
- schematic design
- seismic design
- semirigid design
- shearing design
- shear design
- site design
- stable design
- standard design
- steel design
- structural design
- structural timber design
- tender design
- town-building design
- trial design
- tubular design
- ultimate load design
- ultimate-strength design
- unified design
- work design -
25 Jeanneret, Charles-Edouard (Le Corbusier)
SUBJECT AREA: Architecture and building[br]b. 6 October 1887 La Chaux-de-Fonds, Switzerlandd. 27 August 1965 Cap Martin, France[br]Swiss/French architect.[br]The name of Le Corbusier is synonymous with the International style of modern architecture and city planning, one utilizing functionalist designs carried out in twentieth-century materials with modern methods of construction. Charles-Edouard Jeanneret, born in the watch-making town of La Chaux-de-Fonds in the Jura mountain region, was the son of a watch engraver and dial painter. In the years before 1918 he travelled widely, studying building in many countries. He learned about the use of reinforced concrete in the studio of Auguste Perret and about industrial construction under Peter Behrens. In 1917 he went to live in Paris and spent the rest of his life in France; in 1920 he adopted the name of Le Corbusier, one derived from that of his ancestors (Le Corbesier), and ten years later became a French citizen.Le Corbusier's long working life spanned a career divided into three distinct parts. Between 1905 and 1916 he designed a number of simple and increasingly modern houses; the years 1921 to 1940 were ones of research and debate; and the twenty years from 1945 saw the blossoming of his genius. After 1917 Le Corbusier gained a reputation in Paris as an architect of advanced originality. He was particularly interested in low-cost housing and in improving accommodation for the poor. In 1923 he published Vers une architecture, in which he planned estates of mass-produced houses where all extraneous and unnecessary features were stripped away and the houses had flat roofs and plain walls: his concept of "a machine for living in". These white boxes were lifted up on stilts, his pilotis, and double-height living space was provided internally, enclosed by large areas of factory glazing. In 1922 Le Corbusier exhibited a city plan, La Ville contemporaine, in which tall blocks made from steel and concrete were set amongst large areas of parkland, replacing the older concept of city slums with the light and air of modern living. In 1925 he published Urbanisme, further developing his socialist ideals. These constituted a major reform of the industrial-city pattern, but the ideas were not taken up at that time. The Depression years of the 1930s severely curtailed architectural activity in France. Le Corbusier designed houses for the wealthy there, but most of his work prior to 1945 was overseas: his Centrosoyus Administration Building in Moscow (1929–36) and the Ministry of Education Building in Rio de Janeiro (1943) are examples. Immediately after the end of the Second World War Le Corbusier won international fame for his Unité d'habitation theme, the first example of which was built in the boulevard Michelet in Marseille in 1947–52. His answer to the problem of accommodating large numbers of people in a small space at low cost was to construct an immense all-purpose block of pre-cast concrete slabs carried on a row of massive central supports. The Marseille Unité contains 350 apartments in eight double storeys, with a storey for shops half-way up and communal facilities on the roof. In 1950 he published Le Modular, which described a system of measurement based upon the human male figure. From this was derived a relationship of human and mathematical proportions; this concept, together with the extensive use of various forms of concrete, was fundamental to Le Corbusier's later work. In the world-famous and highly personal Pilgrimage Church of Notre Dame du Haut at Ronchamp (1950–5), Le Corbusier's work was in Expressionist form, a plastic design in massive rough-cast concrete, its interior brilliantly designed and lit. His other equally famous, though less popular, ecclesiastical commission showed a contrasting theme, of "brutalist" concrete construction with uncompromisingly stark, rectangular forms. This is the Dominican Convent of Sainte Marie de la Tourette at Eveux-sur-l'Arbresle near Lyon, begun in 1956. The interior, in particular, is carefully worked out, and the lighting, from both natural and artificial sources, is indirect, angled in many directions to illuminate vistas and planes. All surfaces are carefully sloped, the angles meticulously calculated to give optimum visual effect. The crypt, below the raised choir, is painted in bright colours and lit from ceiling oculi.One of Le Corbusier's late works, the Convent is a tour de force.[br]Principal Honours and DistinctionsHonorary Doctorate Zurich University 1933. Honorary Member RIBA 1937. Chevalier de la Légion d'honneur 1937. American Institute of Architects Gold Medal 1961. Honorary Degree University of Geneva 1964.BibliographyHis chief publications, all of which have been numerously reprinted and translated, are: 1923, Vers une architecture.1935, La Ville radieuse.1946, Propos d'urbanisme.1950, Le Modular.Further ReadingP.Blake, 1963, Le Corbusier: Architecture and Form, Penguin. R.Furneaux-Jordan, 1972, Le Corbusier, Dent.W.Boesiger, 1970, Le Corbusier, 8 vols, Thames and Hudson.——1987, Le Corbusier: Architect of the Century, Arts Council of Great Britain.DYBiographical history of technology > Jeanneret, Charles-Edouard (Le Corbusier)
-
26 pipe
2) трубопровод || подавать [перекачивать\] по трубопроводу; транспортировать по трубопроводу3) усадочная раковина (в отливке, слитке) || образовывать усадочные раковины (в отливке, слитке)5) отдулина ( дефект проката)6) (скважинная) колонна труб7) мор. клюз8) волновод12) текст. отделывать кантом•to break down drill pipes — развинчивать свечи бурильных труб на однотрубки;to line pipes up end-to-end — укладывать трубы в нитку;to roll pipes — свинчивать трубы с помощью каната или цепи;to stab drill pipe — производить наращивание бурильной колонны;to stack drill pipes in the derrick — расставлять бурильные трубы в вышке;to strap drill pipes — измерять глубину скважины по длине бурильных труб, стоящих на подсвечнике;to string pipes — укладывать трубы в нитку;to strip pipes — извлекать трубы ( из скважины) сквозь закрытый универсальный превентор;to take a strain on pipe — натягивать колонну труб;to tong the pipes — свинчивать трубы ключами;to work pipes up and down — расхаживать колонну труб;to wrinkle a pipe — нарезать соединительную резьбу на трубе-
adapting pipe
-
additions pipe
-
admission pipe
-
air gap pipe
-
air pipe
-
air-supply pipe
-
air-vent pipe
-
angle pipe
-
antisiphon pipe
-
asbestos-cement pipe
-
ascending pipe
-
atmospheric pipe
-
auxiliary reservoir pipe
-
barometric discharge pipe
-
barometric pipe
-
bell-and-spigot pipe
-
bent pipe
-
bifurcated pipe
-
bleeder pipe
-
blind pipe
-
blowing pipe
-
blowoff pipe
-
blowout pipe
-
bottom pipe
-
brake cylinder pipe
-
brake pipe
-
branch pipe
-
branched pipe
-
breather pipe
-
breeches pipe
-
brine pipe
-
bulwark mooring pipe
-
buried pipe
-
bustle pipe
-
butt-welded pipe
-
bypass pipe
-
cargo pipe
-
casing pipe
-
casting pipe
-
cast-iron pipe
-
central pipe
-
centrifugal concrete pipe
-
ceramic pipe
-
channel pipe
-
charge pipe
-
charging pipe
-
circular pipe
-
circulation pipe
-
clay pipe
-
cleanout pipe
-
coated steel penstock pipe
-
coiled pipes
-
cold-air pipe
-
cold-drawn pipe
-
collapsed pipe
-
collecting pipe
-
compound pipe
-
concrete pipe
-
condensate pipe
-
condenser leg pipe
-
conductor pipe
-
conduit pipe
-
connecting pipe
-
cooling pipe
-
cooling-water pipe
-
crossover pipe
-
deck pipe
-
defrosting pipe
-
delivery pipe
-
digital pipe
-
discharge pipe
-
distributing pipe
-
double-wall pipe
-
downtake pipe
-
drag pipe
-
drain pipe
-
drill pipe
-
drip pipe
-
drive pipe
-
dropping pipe
-
earthenware pipe
-
eduction pipe
-
ejector pipe
-
elbow pipe
-
electric-welded pipe
-
electrohydrodynamic heat pipe
-
emergency reservoir pipe
-
exhaust pipe
-
expansion pipe
-
extremeline casing pipe
-
fabricated pipe
-
fall pipe
-
feed pipe
-
feedwater pipe
-
fitting pipe
-
flanged pipe
-
flange pipe
-
flexible pipe
-
flow pipe
-
flue pipe
-
flush pipe
-
force pipe
-
free-end pipe
-
free-flow pipe
-
freeze pipe
-
frozen pipe
-
fuel injection pipe
-
fuel pipe
-
fuel supply pipe
-
galvanized pipe
-
gas pipe
-
gas service pipes
-
gas-supply pipe
-
gate pipe
-
gilled pipe
-
glass pipe
-
gravity-assisted heat pipe
-
ground dump tail pipe
-
grout pipe
-
half-socket pipe
-
header pipe
-
heat pipe
-
heating pipe
-
heavy-end pipe
-
heavy-wall pipe
-
heavy-weight drill pipe
-
helical-welded pipe
-
hold-down pipe
-
hollow pipe
-
horizontal sparge pipe
-
horseshoe pipe
-
hose pipe
-
hot-water pipe
-
induction pipe
-
inner-finned pipe
-
insulated pipe
-
intake pipe
-
integral joint drill pipe
-
internal upset drill pipe
-
intertank balance pipe
-
irrigation pipe
-
isothermal heat pipe
-
jet pipe
-
junction pipe
-
kimberlite pipe
-
land pipe
-
lap-welded pipe
-
lead pipe
-
leader pipe
-
leak-off pipe
-
lift pipe
-
light pipe
-
line pipe
-
liquid stand pipe
-
liquid-metal heat pipe
-
little pipe
-
longitudinally welded pipe
-
looping pipe
-
low-head pipe
-
main air pipe
-
main feed pipe
-
main pipe
-
manifold pipe
-
metal pipe
-
mooring pipe with horns
-
mooring pipe with rollers
-
mooring pipe
-
navel pipe
-
network pipe
-
nodule pipe
-
oil discharge pipe
-
oil filler pipe
-
oil gage pipe
-
oil pipe
-
oil pressure pipe
-
oil pump suction pipe
-
oil return pipe
-
open pipe
-
osmotic heat pipe
-
outfall pipe
-
outlet pipe
-
overflow pipe
-
overhead pipe
-
Panama pipe
-
perforated pipe
-
plain end pipe
-
plain pipe
-
plastic pipe
-
precast reinforced-concrete pipe
-
precast pipe
-
pressure pipe
-
primary pipe
-
primary system pipe
-
puff pipe
-
pulverized fuel pipe
-
purge pipe
-
quick-screwed pipes
-
radiator filler pipe
-
rainwater pipe
-
reducing pipe
-
reel pipe
-
reinforced concrete pipe
-
return pipe
-
return water pipe
-
ribbed pipe
-
riser pipe
-
rising pipe
-
runner pipe
-
sag pipe
-
scour pipe
-
scupper pipe
-
seamless pipe
-
secondary pipe
-
service pipe
-
sewage pipe
-
sewer pipe
-
shaft pipe
-
shallow-well casing pipe
-
shore discharge pipe
-
siphon pipe
-
skid pipes
-
slotted pipe
-
sluicing pipe
-
socket pipe
-
sodium beat pipe
-
soil pipe
-
sounding pipe
-
sparge pipe
-
spill pipe
-
spiraled-wall casing pipe
-
spiral-welded pipe
-
spun pipe
-
spurling pipe
-
stand pipe
-
steam pipe
-
stoneware pipe
-
storm-down pipe
-
straight-air pipe
-
suction pipe
-
sump drain pipe
-
supply pipe
-
surge pipe
-
swan-neck pipe
-
tail pipe
-
takeoff pipe
-
tank filling pipe
-
tee branch pipe
-
telescopic pipe
-
thin-wall pipe
-
through brake pipe
-
thruster pipe
-
tile pipe
-
towing pipe
-
T-pipe
-
trainline pipe
-
tremie pipe
-
turning mooring pipe
-
ultra-high-test line pipe
-
U-pipe
-
upset pipe
-
variable conductance heat pipe
-
ventilation pipe
-
vertebra pipe
-
warm-air pipe
-
warping pipe
-
wash-gas pipe
-
waste pipe
-
water heat pipe
-
water pipe
-
water-jet pipe
-
weep pipe
-
weldless pipe
-
wickless heat pipe
-
Y-pipe -
27 Lubetkin, Berthold
SUBJECT AREA: Architecture and building[br]b. 12 December 1901 Tiflis, Georgiad. 23 October 1990 Bristol, England[br]Soviet émigré architect who, through the firm of Tecton, wins influential in introducing architecture of the modern international style into England.[br]Lubetkin studied in Moscow, where in the years immediately after 1917 he met Vesnin and Rodchenko and absorbed the contemporary Constructivist ideas. He then moved on to Paris and worked with Auguste Perret, coming in on the ground floor of the modern movement. He went to England in 1930 and two years later formed the Tecton group, leading six young architects who had newly graduated from the Architectural Association in London. Lubetkin's early commissions in England were for animals rather than humans. He designed the gorilla house (1932) at the Regent's Park Zoological Gardens, after which came his award-winning Penguin Pool there, a sculptural blend of curved planes in reinforced concrete. He also worked at Whipsnade and at Dudley Zoo. The name of Tecton had quickly became synonymous with modern methods of design and structure, particularly the use of reinforced concrete; such work was not common in the 1930s in Britain. In 1938–9 the firm was responsible for another pace-setting design, the Finsbury Health Centre in London. Tecton was disbanded during the Second World War, and although it was reformed in the late 1940s it did not recover its initiative in leading the field of modern work. Lubetkin lived on to be an old man but his post-war career did not fulfil his earlier promise and brilliance. He was appointed Architect-Planner of the Peterlee New Town in 1948, but he resigned after a few years and no other notable commissions materialized. In 1982 the Royal Institute of British Architects belatedly remembered him with the award of their Gold Medal.[br]Principal Honours and DistinctionsRIBA Gold Medal 1982.Further ReadingJohn Allan, 1992, Architecture and the Tradition of Progress, RIBA publications. R.Furneaux Jordan, 1955, "Lubetkin", Architectural Review 36–44.P.Coe and M.Reading, 1981, Lubetkin and Tecton, University of Bristol Arts Council.DY -
28 Rondelet, Jean-Baptiste
[br]b. 1734 Lyons, France d. 1829[br]French architect particularly interested in the scientific and mathematical basis of architectural structure, and who at an early date introduced reinforced concrete into supporting piers in his buildings.[br]From 1795 Rondelet was Professor at the Ecole Centrale des Travaux Publics and while there was responsible for a major treatise on building construction: this was his Traité théorique et pratique de l'art de bâtir, published in four volumes in 1802–17. From 1806 he taught at the Ecole Spéciale d'Architecture, which was soon afterwards merged with the Ecole Polytechnique. It was when Rondelet took over the work of com-pleting the Panthéon in Paris, after the death of Jacques-Germain Soufflot, that he had the opportunity of putting some of his particular structural ideas into practice. In 1755 the King had appointed Soufflot architect of the great new church to be dedicated to the patron saint of the city, Sainte Geneviève. In this neo-classical structure based upon Greek cross plan, Soufflot intended four slender piers, each encased in three engaged columns, to support the pendentives for the dome to rise over the crossing. It was a fine and elegant building on a large scale, but by the early nineteenth century, when the church had become a pantheon, cracks were appearing in the masonry. When Rondelet succeeded as architect after Soufflot's death, he strengthened and enlarged the piers, employing a faced concrete structure reinforced with metal. He used a metalreinforced mortar with rubble aggregate.[br]BibliographyAn article by Rondelet appears in: 1989, Le Panthéon: Symbole des Révolutions, pp. 308–10 (book of the Exhibition at the Hôtel de Sully, Paris), ed. Picard, Caisse Nationale des Monuments Historiques et des Sites en France.Further ReadingM.N.Mathuset-Bandouin, 1980, "Biographie de Jean Rondelet", Soufflot et son temps, Caisse Nationale des Monuments Historiques et des Sites en France, 155ö7.DYBiographical history of technology > Rondelet, Jean-Baptiste
-
29 Breuer, Marcel Lajos
[br]b. 22 May 1902 Pécs, Hungaryd. 1 July 1981 New York (?), USA[br]Hungarian member of the European Bauhaus generation in the 1920s, who went on to become a leader in the modern school of architectural and furniture design in Europe and the United States.[br]Breuer began his student days following an art course in Vienna, but joined the Bauhaus at Weimar, where he later graduated, in 1920. When Gropius re-established the school in purpose-built structures at Dessau, Breuer became a member of the teaching staff in charge of the carpentry and furniture workshops. Much of his time there was spent in design and research into new materials being applied to furniture and interior decoration. The essence of his contribution was to relate the design of furniture to industrial production; in this field he developed the tubular-steel structure, especially in chair design, and experimented with aluminium as a furniture material as well as pieces of furniture made up from modular units. His furniture style was characterized by an elegance of line and a careful avoidance of superfluous detail. By 1926 he had furnished the Bauhaus with such furniture in chromium-plated steel, and two years later had developed a cantilevered chair.Breuer left the Bauhaus in 1928 and set up an architectural practice in Berlin. In the early 1930s he also spent some time in Switzerland. Notable from these years was his Harnischmacher Haus in Wiesbaden and his apartment buildings in the Dolderthal area of Zurich. His architectural work was at first influenced by constructivism, and then by that of Le Corbusier (see Charles-Edouard Jeanneret). In 1935 he moved to England, where in partnership with F.R.S. Yorke he built some houses and continued to practise furniture design. The Isokon Furniture Co. commissioned him to develop ideas that took advantage of the new bending and moulding processes in laminated wood, one result being his much-copied reclining chair.In 1937, like so many of the European architectural refugees from Nazism, he found himself under-occupied due to the reluctance of English clients to embrace the modern architectural movement. He went to the United States at Gropius's invitation to join him as a professor at Harvard. Breuer and Gropius were influential in training a new generation of American architects, and in particular they built a number of houses. This partnership ended in 1941 and Breuer set up practice in New York. His style of work from this time on was still modern, but became more varied. In housing, he adapted his style to American needs and used local materials in a functional manner. In the Whitney Museum (1966) he worked in a sculptural, granite-clad style. Often he utilized a bold reinforced-concrete form, as in his collaboration with Pier Luigi Nervi and Bernard Zehrfuss in the Paris UNESCO Building (1953–8) and the US Embassy in the Hague (1954–8). He displayed his masterly handling of poured concrete used in a strikingly expressionistic, sculptural manner in his St John's Abbey (1953–61) in Collegeville, Minnesota, and in 1973 his Church of St Francis de Sale in Michigan won him the top award of the American Institute of Architects.[br]Principal Honours and DistinctionsAmerican Institute of Architects Medal of Honour 1964, Gold Medal 1968. Jefferson Foundation Medal 1968.Bibliography1955, Sun and Shadow, the Philosophy of an Architect, New York: Dodd Read (autobiography).Further ReadingC.Jones (ed.), 1963, Marcel Breuer: Buildings and Projects 1921–1961, New York: Praeger.T.Papachristou (ed.), 1970, Marcel Breuer: New Buildings and Projects 1960–1970, New York: Praeger.DY -
30 face
2) лицо, лицевая сторона, лицевая поверхность; лобовая поверхность3) грань (напр. геометрической фигуры, кристалла); фаска, срез6) облицовка; защитное покрытие || облицовывать; устраивать защитное покрытие8) подпил, подруб ( дерева при валке); надрез ( ствола)9) пласть ( пиломатериала)10) плоский боёк ( молота)12) фасад, вид спереди13) торцевая поверхность, торец || подрезать торец, производить торцевую обработку16) ширина венца (ЗК)17) дно ( баллона ЭЛТ); экран ( ЭЛГ)20) начертание ( рисунок) шрифта23) пищ. передняя грань ( рифли вальца)•face right — геод. круг право;to change face — геод. изменять положение вертикального круга ( при измерении горизонтальных углов теодолитом способом приёмов);to reverse face — геод. изменять положение вертикального круга ( при измерении горизонтальных углов теодолитом способом приёмов)face of approach — открылок( берегового) устоя (плотины, моста)face of brick — лицевая грань кирпича, ложокface of pulley — щека блока, боковая сторона шкиваface of wall — наружная поверхность стены-
acting face
-
active face
-
adjacent face
-
advanced technology mining face
-
advancing face
-
air face
-
anvil face
-
array face
-
back face of wave
-
bank face
-
basal face
-
bevel face
-
blade face
-
bottom-hole face
-
breakage face
-
bulb face
-
bush-hammered face
-
cam face
-
card face
-
carrier top face
-
cast face
-
clearance face
-
cleavage face
-
close-packed face
-
coal face
-
cobble face
-
coking face
-
cold face
-
color face
-
combustion face
-
compression face
-
concrete face
-
coupler pulling face
-
crack face
-
crystal face
-
cutting face
-
cylinder face
-
dam face
-
datum face
-
dead face
-
development face
-
diffusing face
-
dip face
-
downstream face
-
drum face
-
electrode face
-
end face
-
exhausted face
-
exposed face
-
filter mounting face
-
flat face
-
forward face of wave
-
friction face
-
front face
-
fusion face
-
gear face
-
glide face
-
grinding face
-
groove face
-
head face
-
headwall face
-
hot face
-
image face
-
inactive face
-
joint face
-
lapped face
-
large face
-
lateral face
-
leading face
-
lee face of wave
-
load-bearing face
-
longwall face
-
manless face
-
mechanical seal face
-
mining face
-
mold face
-
mounting face
-
natural face
-
overflow face
-
overlapping link face
-
parting face
-
pean-hammered face
-
peripheral face
-
pitch face
-
pole face
-
polish face
-
pressure face
-
production face
-
quarry face
-
rake face
-
reading face
-
reference face
-
reinforced-concrete face
-
remotely operated longwall face
-
retreat face
-
rise face
-
rock face
-
rolling face
-
root face
-
rupture face
-
sawn face
-
seal face
-
seam face
-
second end face
-
shortwall face
-
side face
-
spillway face
-
split face
-
streamlined spillway face
-
strike face
-
striker face
-
suction face
-
supporting face of wall
-
tailwater face
-
target face
-
tensile face
-
thrust face
-
tool face
-
tooth face
-
tube face
-
tunnel face
-
type face
-
upstream face
-
valve face
-
vertical exterior face
-
vertical interior face
-
wall face
-
water face
-
wear face
-
working face
-
work face -
31 face
1) лицевая сторона; грань2) забой3) облицовка, защитное покрытие6) циферблат7) фасад9) облицовывать; устраивать экран плотины•- face of brick - face of wall - acting face - active face - anvil face - bevel face - compression face - concrete face - downstream face - exposed face - face root face - front face - headwall face - large face - load-bearing face - overflow face - parting face - pressure face - quarry face - reading face - reinforced-concrete face - rupture face - seal face - seepage face - side face - spillway face - tailwater face - thrust face - tunnel face - upstream face - water face - wear face - weld face - working face* * *1. лицевая поверхность; грань; облицовка || облицовывать2. фасад ( здания)3. забой; стенка выемки- bevel face
- digging face
- downstream face
- end face
- exposed face
- hot face
- inner face
- inset beam face
- interior face
- lateral face
- marked face
- mixed face
- pilaster face
- side face
- spillway face
- tunnel face
- upstream face
- wall face
- water face
- watertight face
- work face -
32 Gropius, Walter Adolf
SUBJECT AREA: Architecture and building[br]b. 18 May 1883 Berlin, Germanyd. 5 July 1969 Boston, USA[br]German co-founder of the modern movement of architecture.[br]A year after he began practice as an architect, Gropius was responsible for the pace-setting Fagus shoe-last factory at Alfeld-an-der-Leine in Germany, one of the few of his buildings to survive the Second World War. Today the building does not appear unusual, but in 1911 it was a revolutionary prototype, heralding the glass curtain walled method of non-load-bearing cladding that later became ubiquitous. Made from glass, steel and reinforced concrete, this factory initiated a new concept, that of the International school of modern architecture.In 1919 Gropius was appointed to head the new School of Art and Design at Weimar, the Staatliches Bauhaus. The school had been formed by an amalgamation of the Grand Ducal schools of fine and applied arts founded in 1906. Here Gropius put into practice his strongly held views and he was so successful that this small college, which trained only a few hundred students in the limited years of its existence, became world famous, attracting artists, architects and students of quality from all over Europe.Gropius's idea was to set up an institution where students of all the arts and crafts could work together and learn from one another. He abhorred the artificial barriers that had come to exist between artists and craftsmen and saw them all as interdependent. He felt that manual dexterity was as essential as creative design. Every Bauhaus student, whatever the individual's field of work or talent, took the same original workshop training. When qualified they were able to understand and supervise all the aesthetic and constructional processes that made up the scope of their work.In 1924, because of political changes, the Weimar Bauhaus was closed, but Gropius was invited to go to Dessau to re-establish it in a new purpose-built school which he designed. This group of buildings became a prototype that designers of the new architectural form emulated. Gropius left the Bauhaus in 1928, only a few years before it was finally closed due to the growth of National Socialism. He moved to England in 1934, but because of a lack of architectural opportunities and encouragement he continued on his way to the USA, where he headed the Department of Architecture at Harvard University's Graduate School of Design from 1937 to 1952. After his retirement from there Gropius formed the Architect's Collaborative and, working with other architects such as Marcel Breuer and Pietro Belluschi, designed a number of buildings (for example, the US Embassy in Athens (1960) and the Pan Am Building in New York (1963)).[br]Bibliography1984, Scope of Total Architecture, Allen \& Unwin.Further ReadingN.Pevsner, 1936, Pioneers of the Modern Movement: From William Morris to Walter Gropius, Penguin.C.Jenck, 1973, Modern Movements in Architecture, Penguin.H.Probst and C.Shädlich, 1988, Walter Gropius, Berlin: Ernst \& Son.DY -
33 каркас
муж. frame( work), skeletonм. frame(work) ;
shell;
железобетонный ~ structural frame of reinforced concrete;
~ный frame attr. ;
~ная конструкция frame construction. -
34 material
1. материал, вещество2. грунт3. материальный, вещественныйmaterials by structural properties — материалы, классифицируемые по структурным свойствам
abrasive material — абразивный материал, абразив
4. глинистый материалbase material — основное вещество; основа; материал подложки
area material — печатный материал, подсчитываемый по площади
5. глинистая порода; глинистый грунтartificial pozzolanic material — искусственный пуццолановый материал, искусственный пуццолан
backing material — подкладочный материал, подкладка
bagged material — материал, поставляемый в мешках; материал, затариваемый в мешки
binding material — связующий материал, вяжущее
bonding material — вяжущий материал, вяжущее
cement-bound granular material — сцементировавшийся зернистый грунт; зернистый грунт, подвергнутый цементации
cementing material — минеральный вяжущий материал, минеральное вяжущее
coated material — чёрный щебень; щебень, обработанный чёрными вяжущими
coating material — обмазочный материал; обмазочная смесь, обмазка; штукатурка
composite material — композиционный материал, композит
fiber reinforced material — материал, армированный волокном
fill material — сыпучий материал, материал для засыпки
foamed-in-place acoustical materials — звукоизоляционные пенопласты, приготовляемые на месте укладки
6. зернистый материал7. зернистый грунтgritting materials — каменная мелочь, высевки, мелкий гравий
jointing material — материал для устройства швов; материал для герметизации стыков
laminated material — слоистый материал; слоистый пластик
lining material — облицовочный материал; футеровочный материал
8. рыхлый материал9. рыхлый грунтlow-tensile strength material — материал, обладающий малой прочностью при растяжении
maintenance patching material — материал для ямочного ремонта ; материал для мелкого отделочного ремонта
matrix material — вяжущий материал, вяжущее
nonconductive material — материал, не проводящий электротока, токоизолирующий материал
noncreeping material — материал с малой ползучестью, материал, практически не подверженный ползучести
parent material — минеральное или органическое вещество из материнской породы, которое образует грунт
10. пластичный материал11. пластическая масса, пластмассаpozzolanic material — пуццолан; пуццолановый материал
prebagged material — материал, затаренный в мешки
raw materials — сырьевые материалы, сырьё
recycled material — восстановленный материал; повторно используемый материал
release material — антиадгезионный материал, антиадгезионная смазка
resilient materials — эластомеры, эластичные материалы
matrice material — основная масса; шаблон
12. скальная порода13. элемент скальной породыsealing material — герметизирующий материал, герметик
sound material — прочный материал, качественный материал
sparkle material — материал, создающий блёскость покровного отделочного слоя
sprayed-on material — материал, наносимый набрызгом
strain-hardening material — самоупрочивающийся материал; материал, обладающий способностью к самоупрочнению
toxic material — токсичный материал, токсичное вещество
trim materials — материалы для плакирования деталей; материалы износостойких покрытий
walling material — стеновой материал, материал стен
-
35 material
1) материал; вещество2) ткань, материал3) мн. ч. детали ( для обработки)•to calibrate a material — (точно) определять свойства материала-
ablative material
-
abrasive material
-
absorbent material
-
acceptor material
-
acoustical material
-
acoustic material
-
active laser material
-
active material
-
adding material
-
advanced material
-
air-equivalent material
-
air-wall material
-
amorphous magnetic material
-
anisotropic material
-
anodic material
-
antiferroelectric material
-
antiferromagnetic material
-
antifriction material
-
antihalation material
-
antirot material
-
antislip material
-
antisun material
-
asbestos-cement material
-
atmospheric reentry material
-
attached foreign material
-
backfilling material
-
backfill material
-
backing material
-
barrier material
-
base material
-
basic material
-
batch material
-
bed material
-
bimetallic conductor material
-
binding material
-
bituminous material
-
black-and-white material
-
blanket material
-
bonding material
-
borrow material
-
bottoming material
-
bred material
-
breeder material
-
brittle material
-
bubble material
-
building material
-
bulk material
-
bulk semiconductor material
-
burden material
-
carbon electrical material
-
carrier material
-
case material
-
cast stone material
-
caved material
-
cementing material
-
ceramic foam material
-
ceramic material
-
charge material
-
charging material
-
clad dielectric material
-
clad material
-
coal-tar raw material
-
coating material
-
coherent material
-
cohesionless material
-
cohesive material
-
coiled material
-
cold-charged material
-
color material
-
combustible material
-
combustion materials
-
compact material
-
composite material
-
compounding material
-
concrete materials
-
conducting material
-
conductor material
-
constant bandgap material
-
constructional material
-
contact conductor material
-
core material
-
corrosion-resistance material
-
cover material
-
covering material
-
crib material
-
crucible material
-
crystalline material
-
cushioning material
-
damping material
-
degenerative semiconductor material
-
diamagnetic material
-
dielectric material
-
difficult-to-cut material
-
diffusion transfer material
-
direct bandgap material
-
discrete material
-
disordered material
-
dolomite-based material
-
dopant material
-
doping material
-
dredged material
-
ductile material
-
dye bleach material
-
earthy raw materials
-
elastic material
-
electret material
-
electric contact material
-
electric insulating material
-
electrochromic material
-
electrode material
-
electroluminescent material
-
electronic-grade material
-
electronic material
-
electrooptical material
-
electrooptic material
-
electrostrictive material
-
electrotechnical material
-
ENG/EFP tape material
-
engineering material
-
epitaxial material
-
evaporated material
-
evaporation material
-
excavated material
-
excessive uncut material
-
expanded material
-
explosive material
-
extraneous material
-
extraterrestrial material
-
extrinsic material
-
fabric-filled molding material
-
facing material
-
feed material
-
ferrimagnetic material
-
ferroelectric material
-
ferromagnetic material
-
ferrous material
-
fertile material
-
fettling material
-
fiber glass material
-
fiber-filled molding material
-
fiber-forming material
-
fiber-reinforced material
-
fibrous material
-
filling material
-
finished material
-
finishing material
-
fireclay material
-
fired material
-
fireproof material
-
fire-resistant material
-
fissile material
-
fissionable material
-
fission material
-
flammable material
-
float material
-
fluxing material
-
foam material
-
foam-type refractory material
-
food raw material
-
foreign material
-
foundation material
-
frost-resistant material
-
fuel material
-
fungicidal packaging material
-
gaseous fissionable material
-
gasket material
-
glass-bonded reinforced dielectric material
-
glass-bonded dielectric material
-
glass-ceramic material
-
glass-fiber material
-
glass-forming material
-
graded bandgap material
-
granular material
-
greasy material
-
grinding material
-
gunned material
-
half-finished material
-
hard material
-
hard-magnetic material
-
hard-to-machine material
-
heat-insulating material
-
heat-resistant material
-
heat-resisting conductor material
-
heat-resisting material
-
heat-softenable material
-
heat-transfer material
-
high-alloy material
-
high-coercivity material
-
high-conductivity material
-
high-definition material
-
high-expansion material
-
high-performance material
-
high-resistivity material
-
high-resolution material
-
high-Z material
-
honeycombed material
-
honeycomb material
-
host material
-
hot material
-
hydraulic insulating material
-
hydrocarbon material
-
hyperconductor material
-
ideal granular material
-
imaging material
-
incombustible material
-
inedible raw material
-
inedible material
-
inert material
-
inflammable material
-
in-process material
-
insulating material
-
intergranular material
-
intermediate material
-
intrinsic material
-
isotropic material
-
jointing material
-
joint-sealing material
-
laminated material
-
large-gap material
-
laser material
-
lasing material
-
library material
-
light-sensitive material
-
linearly elastic material
-
lining material
-
liquid fissionable material
-
loading material
-
loose material
-
lossy material
-
lost circulation material
-
low-bandgap material
-
low-gap material
-
low-coercitivity material
-
low-expansion material
-
low-loss material
-
low-mobility photovoltaic material
-
low-resistivity material
-
lump material
-
magnetic material
-
magnetically hard material
-
magnetically soft material
-
magnetodielectric material
-
magnetooptic material
-
magnetostrictive material
-
man-made material
-
materials of construction
-
metallic conductor material
-
metallic material
-
mine-run material
-
minus material
-
molding material
-
monocrystalline material
-
multicorrugating material
-
multilayer conductor material
-
multilayer material
-
narrow-bandgap material
-
natural material
-
negative electron affinity material
-
negative material
-
negative-image material
-
nonabrasive material
-
noncoherent material
-
noncombustible material
-
nonconductivity material
-
nonfired material
-
nonflammable material
-
nonfood raw material
-
nonmagnetic material
-
nonretentive material
-
nonsilver material
-
nonterrestrial material
-
n-type material
-
nuclear material
-
oil-resistant material
-
optical material
-
oversize material
-
oxide-metal material
-
packaging material
-
packing material
-
paintwork material
-
paramagnetic material
-
parent material
-
patching material
-
pavement material
-
paving material
-
phosphor material
-
photochromic material
-
photoconductive material
-
photographic material
-
photoresponsive material
-
photosensitive material
-
phototropic material
-
photovoltaic material
-
piezoelectric material
-
plastic material
-
polycrystalline material
-
poromeric material
-
positive electron affinity material
-
positive material
-
positive-image material
-
preformed material
-
pressure sensitive material
-
prestrained material
-
p-type material
-
pulp-making material
-
pyroelectric material
-
ramming material
-
random material
-
rapid-access photographic material
-
raw material
-
receiving material
-
recording material
-
recycled material
-
reference nuclear materials
-
refractory conductor material
-
refractory material
-
reject material
-
rejected material
-
resistance material
-
resistive material
-
retentive material
-
returned fissile material
-
reversal material
-
road-building material
-
roll material
-
roll-compacted powder material
-
rooting material
-
rough material
-
rubber-cord material
-
rubber-like material
-
rubber-reinforced material
-
rubbery material
-
sandwiched material
-
scrap material
-
sealing material
-
secondary hardening material
-
secondary raw materials
-
self-adhesive material
-
self-developing material
-
semiconducting material
-
semiconductive material
-
semisolid bituminous materials
-
sensitive material
-
sheet material
-
shielding material
-
silicate concrete material
-
silverless material
-
sintered material
-
sintered metal-powder material
-
slagging material
-
slip-cast material
-
soft material
-
soft-magnetic material
-
solar energy storage material
-
solid bituminous material
-
solid fissionable material
-
solid-foamed material
-
solvent-resistant material
-
sound-absorbing material
-
sound-insulating material
-
space-manufactured material
-
spalling-resistant material
-
special fissionable material
-
square-loop material
-
standard nuclear materials
-
starting material
-
stealth material
-
stemming material
-
stowing material
-
structural material
-
superconducting material
-
superconductive material
-
superrefractory material
-
surface-active material
-
surface-inactive material
-
tamping material
-
tar-dolomite material
-
tar-stabilized dolomite material
-
temperature sensitive material
-
termination material
-
textured material
-
thermographic material
-
thermomagnetic material
-
thermosetting material
-
thermost material
-
timber-based material
-
tool material
-
tree-length material
-
two-gap material
-
two-valley material
-
ultrarefractory material
-
unclad dielectric material
-
undersize material
-
upholstery material
-
vaporproof material
-
vesicular material
-
video material
-
vitrocrystalline material
-
wall-building material
-
washing material
-
waste material
-
waterproofing material
-
web material
-
weighting material
-
widebandgap material
-
widegap material
-
wood raw material
-
work material -
36 bridge
- bridge
- n1. мост; мостовой переход; путепровод; эстакада
2. защитный козырёк (над входом, проходом, тротуаром)
3. колосник сцены
- aluminum bridge
- arch bridge
- Bailey bridge
- balance bridge
- balanced cantilever bridge
- bascule bridge
- bay bridge
- beam bridge
- below bridge
- bowstring girder bridge
- cable-stayed bridge
- cable-stayed girder bridge
- canal bridge
- cantilever bridge
- center-bearing swing bridge
- composite bridge
- composite-girder bridge
- concrete cable-stayed bridge
- continuous bridge
- continuous girder bridge
- continuous steel truss tied arch bridge
- covered bridge
- crane bridge
- curved bridge
- deck-type bridge
- deck bridge
- double-bascule bridge
- double leaf bascule bridge
- fixed arch bridge
- floating bridge
- frame-type bridge
- girder and slab bridge
- glulam bridge
- half-through bridge
- half-width bridge
- heat bridge
- heel trunnion bascule bridge
- high level bridge
- highway bridge
- hoist bridge
- hollow girder bridge
- ice bridge
- Irish bridge
- iron bridge
- lake bridge
- lift bridge
- lightweight prestressed concrete bridge
- loading bridge
- log bridge
- long span bridge
- low-level bridge
- low water bridge
- major bridge
- masonry bridge
- material-handling bridge
- military bridge
- minor bridge
- movable bridge
- movable-bascule bridge
- movable-swing bridge
- multilane bridge
- multiple-span bridge
- multispan balanced suspension bridge
- operating bridge
- orthotropic-deck bridge
- orthotropic steel plate deck bridge
- orthotropic plate deck bridge
- overpass bridge
- pedestrian bridge
- permanent bridge
- pile bridge
- pin-connected bridge
- pipeline bridge
- pontoon bridge
- post-tensioned prestressed concrete bridge
- prefabricated bridge
- prestressed concrete bridge
- prestressed concrete bifurcated box girder bridge
- prestressed segmental bridge
- prestressed wood bridge
- pretensioned prestressed concrete bridge
- railroad bridge
- reinforced bridge
- retractile draw bridge
- rigid frame bridge
- rim-bearing swing bridge
- river bridge
- riveted bridge
- road-cum-rail bridge
- rolled-beam bridge
- rolling-lift bascule bridge
- rolling-lift bridge
- scaffold bridge
- segmental box girder bridge
- service bridge
- short highway bridge
- short span steel bridge
- short span bridge
- sign bridge
- simple bridge
- simple I-beam bridge
- simply supported bridge
- single-bascule bridge
- single lane bridge
- single leaf bascule bridge
- single span bridge
- single track railway bridge
- skew bridge
- slab bridge
- slant-legged rigid-frame bridge
- square bridge
- steel bridge
- steel box-girder bridge
- steel cable-stayed bridge
- steel plate girder bridge
- steel shop-coated bridge
- steel tied-cable arch bridge
- steel truss bridge
- stiffened suspension bridge
- straight bridge
- strengthened highway bridge
- strengthened bridge
- submersible bridge
- suspension bridge
- swing bridge
- T-beam bridge
- temporary bridge
- temporary bypass bridge
- three-hinged arch bridge
- through bridge
- through-girder railway bridge
- tied-arch bridge
- timber bridge
- timber stringers-concrete deck bridge
- timber stringers-laminated deck bridge
- timber trestle bridge
- toll bridge
- transporter bridge
- trestle bridge
- trunnion-type bascule bridge
- trunnion bascule bridge
- truss bridge
- two-hinged arch bridge
- two-lane bridge
- vertical lift bridge
- welded bridge
- work bridge
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
-
37 belt
ремень; плоский приводной ремень; лента; лента конвейера; пояс; брекер шины; брекерный пояс; полоса; бандаж; связь; звено; пассик; лента дорожного финишёра; обработка бетонного дорожного покрытия лентой; зона; район; II опоясывать; разг. быстро мчаться- belt anchorage location - belt anchorage point - belt-and-pulley arrangement - belt-and-pulley drive - belt and straight grinder - belt angle - belt brake - belt bucket-elevator - belt carcass - belt carrier - belt catch - belt cement - belt-chain conveyer - belt channel - belt clamp - belt-cleaning device - belt cone - belt-conveyed concrete - belt conveyer - belt-conveyer weigher - belt conveyor - belt creep - belt deflection - belt-down the road - belt dressing - belt-dressing composition - belt drive - belt-drive configuration - belt-driven - belt-driven hammer - belt-driven handpiece - belt-driven machine - belt-driven shuttle - belt-driven shuttle unit - belt-driven spindle - belt-driven wheelhead - belt driving - belt-driving over - belt-driving under - belt-drop hammer - belt-drop stamp - belt duck - belt dynamometer - belt fastener - belt feed - belt filter - belt finisher - belt flapping - belt for windshields - belt fork - belt-fray indicator - belt gear - belt gearing - belt grade - belt grinder - belt grinding - belt-grinding - belt-grinding machine - belt guard - belt-guard grid - belt guide - belt-guide fork - belt hammer - belt head - belt highway - belt hook - belt horsepower - belt idler - belt joint - belt lace - belt lacing - belt line - belt-line highway - belt-line railroad - belt loader - belt-machining apparatus - belt magazine - belt misalignment - belt modulus - belt mounting point - belt of land - belt-on control device - belt-operated - belt performance - belt pitch - belt-pitch line - belt polisher - belt power - belt pretension - belt pull - belt-pulley crown diameter - belt-pulley flywheel - belt punch - belt rail - belt railroad - belt release - belt-release button - belt reverser - belt reversing - belt ring - belt rivet - belt road - belt roller - belt route - belt sag - belt-sag factor - belt sagging - belt sander - belt saw - belt screen - belt screw - belt sheave - belt shifter - belt shifter cam - belt-shifting device - belt-shifting fork - belt-shifting mechanism - belt-shuttle unit - belt sling - belt slip - belt-slip detector - belt slipper - belt-slope tension - belt sorter - belt spindle - belt stacker - belt stress - belt stretcher - belt-stretching roller - belt tautness - belt tension - belt-tension adjuster - belt-tension adjustment - belt-tension lever - belt tensioner - belt tensioning - belt-tensioning bolt - belt test - belt tightener - belt-tightening pulley - belt track - belt transmission - belt transporter - belt tripper - belt-turnover system - belt-twist system - belt-type conveyor - belt-type desintegrator - belt-type feeder - belt-type grinder - belt-type levelling device - belt-type toolchanger - belt whipping - belt with half twist - belt with reinforced edge - belt work - active safety belt - armored belt - automatic seat belt control unit - automatic shoulder seat belt control belt - auxiliary drive belt - balance shaft belt kit - balata belt - banded-together belt - bare duck belt - buckle one's belt - buffing belt - camel hair belt - canvas belt - cemented belt - chain belt - channel belt - cleated belt - closed loop belt - coated abrasive belt - cog belt - cogged belt - continuous belt - conveyer belt - conveying belt - conveyor belt - conweigh belt - cord belt - cotton belt - crawler belt - cross belt - crossed belt - cross-stitched belt - discharge belt - double-layer belt - drive belt - driving belt - elevator belt - emery belt - endless belt - endless metal belt - face belt - fan belt - fasten one's belt - feed belt - finishing belt - flat belt - floating belt - flue belt - gate belt - glued belt - green belt - grinding belt - grinding aid belt - gut belt - half-crossed belt - halved belt - hemp belt - high-speed reversing belt - inclined belt - indexing belt - inertia safety belt - inertia seat belt - laced belt - laminated belt - lap belt - layered belts - leather belt - link belt - link leather belt - loosen one's belt - main belt - main driving belts able to transmit any required H.P. - mesh belt - metal belt - mother belt - multiple-V belt - oblique belt - open belt - perforated belt - poly-V belt - power transmission belt - quarter-turn belt - quarter-twist belt - radius belt - raised rib belt - resin-bond cloth belt - return belt - reverse belt - reversible belt - round belt - round driving belt - round-section driving belt - rubber belt - rubber-impregnated belt - safety belt - sand belt - sanding belt - seat belt - seat-integrated seat belt - seed belt - self-retracting seat belt - serpentine belt - sewn belt - shelter belt - shifting belt - shoulder belt - three-point seat belt - single-ply belt - solid woven conveyor belt - split belt - steel belt - steel cord conveyor belt - stepped-ply belt - stitched belt - stretching of a belt - synchronous belt - take up the belt - tapered grinding belt - three-ply belt - throw-off the belt - tighten belt - timing belt - toothed belt - transmission belt - travelling belt - triangular belt - turn belt - two-ply belt - two-point seat belt - undo one's belt - V-belt - V-ribbed belt - V-shaped belt - variable speed belt - variable speed V belt - vee belt - wedge belt - weigh belt - wet grinding belt - wind belt - woven fabric belt
- 1
- 2
См. также в других словарях:
reinforced concrete — concrete containing steel bars, strands, mesh, etc., to absorb tensile and shearing stresses. [1900 05] * * * Concrete in which steel is embedded in such a manner that the two materials act together in resisting forces. The reinforcing steel rods … Universalium
Glass fiber reinforced concrete — (GFRC) is a type of fiber reinforced concrete. Glass fiber concretes are mainly used in exterior building façade panels and as architectural precast concrete. This material is very good in making shapes on the front of any building and it is less … Wikipedia
CONCRETE — Concrete is a compound made from sand, gravel, and cement, while cement is a mixture of minerals that become hard when water is added, binding the sand and gravel into a solid mass. Although concrete is traditionally considered an Ancient… … Historical Dictionary of Architecture
Concrete — This article is about the construction material. For other uses, see Concrete (disambiguation). Outer view of the Roman Pantheon, still the largest unreinforced solid concrete dome.[1] … Wikipedia
Concrete slab — Suspended slab under construction, with the formwork still in place … Wikipedia
Concrete saw — A concrete saw being readied for use. The man in the background is preparing the hose to deliver water to cool the saw, whilst the operator is moving the saw to the required position. A substantial engine powers the unit … Wikipedia
Concrete Cows — A closeup of the Concrete Cows (replicas). The Concrete Cows in Milton Keynes, England are an iconic work of sculpture, created in 1978 by Canadian born artist, Liz Leyh.[1] There are three cows and three calves … Wikipedia
Types of concrete — There are many types of concrete, variations of installation, composition, finish and performance characteristics. A highway paved with concrete … Wikipedia
Carbon-fiber-reinforced polymer — For fibers of carbon, see carbon (fiber). Tail of an RC helicopter, made of CFRP Carbon fiber reinforced polymer or carbon fiber reinforced plastic (CFRP or CRP or often simply carbon fiber), is a very strong and light fiber reinforced polymer… … Wikipedia
Prestressed concrete — diagram Prestressed concrete is a method for overcoming concrete s natural weakness in tension. It can be used to produce beams, floors or bridges with a longer span than is practical with ordinary reinforced concrete. Prestressing tendons… … Wikipedia
Glass-reinforced plastic — (GRP), is a composite material or fiber reinforced plastic made of a plastic reinforced by fine fibers made of glass. Like graphite reinforced plastic, the composite material is commonly referred to by the name of its reinforcing fibers… … Wikipedia