producing+layer

продуктивный пласт

1) Geology: pay zones (formation)

2) Engineering: producing formation, productive stratum

3) Oil: pay, pay sand, pay zone, payout bed, producing layer, producing reservoir, productive sand, reservoir, productive strata

4) Geophysics: formation, pay sandstone

5) Sakhalin energy glossary: hydrocarbon-bearing formation, pay section

6) Oil&Gas technology productive formation

7) Oilfield: pay-out bed

8) oil&gas: pay bed, pay formation

камбий m пробковый

cork-producing layer

покрытие

carpet, coat, coating, cover, coverage, covering, ( получаемое методами осаждения) deposit, ( получаемое методом осаждения) deposition, skin, envelope, film, overcoat, layer, overlay, proofing, ( здания) roof, sheath, sheathing, surface дорож., surfacing, top, topping

* * *

покры́тие с.
coat(ing)

наноси́ть покры́тие ки́стью — brush on a coat(ing)

наноси́ть покры́тие набры́згом [напыле́нием] — spray on a coat(ing)

сдира́ть покры́тие — strip the coat(ing)

ано́дное покры́тие — anodic coat(ing)

антикоррозио́нное покры́тие — corrosion-resistant [antirust, anticorrosive] coat(ing)

водонепроница́емое покры́тие — watertight cover

водоотта́лкивающее покры́тие — water-repellent coat(ing)

гальвани́ческое покры́тие — electroplating

гидрофо́бное покры́тие — hydrophobic coat(ing)

горя́чее покры́тие — hot-dip metal coat(ing)

гумми́рованное покры́тие — rubberized coat(ing)

доро́жное покры́тие — roadway covering, pavement

выгла́живать доро́жное покры́тие утюго́м со щё́тками — drag-broom the pavement

меня́ть доро́жное покры́тие — re-surface a road

отде́лывать доро́жное покры́тие щё́тками — broom-finish the pavement

утю́жить доро́жное покры́тие — drag the pavement

доро́жное, асфа́льтовое покры́тие — asphalt pavement

доро́жное, двухсло́йное покры́тие — two-course [double-course] pavement

доро́жное, нежё́сткое покры́тие — nonrigid pavement

доро́жное, односло́йное покры́тие — one-course pavement

доро́жное, упру́гое покры́тие — flexible pavement

защи́тно-декорати́вное покры́тие — protective-decorative coat(ing)

защи́тное покры́тие — protective coat(ing)

като́дное покры́тие — cathodic coat(ing)

лакокра́сочное покры́тие — paint coat(ing), paintwork

покры́тие лату́нью — brassing, brass plating, brass coat(ing)

ме́дное покры́тие — copper plating, copper coat(ing)

металлизацио́нное покры́тие — metallized coat(ing)

металли́ческое покры́тие — metal plating

металли́ческое, композицио́нное покры́тие — composite metal plating

напла́вленное покры́тие — surfaced coat(ing)

напылё́нное покры́тие — sprayed(-on) coat(ing)

нескользя́щее покры́тие — nonskid [nonslip] coat(ing)

нетеплопрово́дное покры́тие — low-conductivity coat(ing)

ни́келевое покры́тие — nickel plating, nickel coat(ing)

огнезащи́тное покры́тие — flame-retardant coat(ing)

огнеупо́рное покры́тие — refractory coat(ing)

о́кисное покры́тие — oxide coat(ing)

па́лубное покры́тие — deck coat(ing), deck covering

пигме́нтное покры́тие полигр. — pigment coat(ing)

покры́тие погруже́нием — dip coat(ing)

полума́товое покры́тие — semibright coat(ing)

противогидролокацио́нное покры́тие — брит. antiasdic coating; амер. antisonar coating

противокоррозио́нное покры́тие — antirust [anticorrosive, corrosion-resistant] coat(ing)

противоморо́зное покры́тие — antifreezing coat(ing)

противообраста́ющее покры́тие — antifouling coat(ing)

противоорео́льное покры́тие кфт. — antihalation backing

противорадиолокацио́нное покры́тие — antiradar coat(ing)

покры́тие пути́, балла́стное покры́тие ж.-д. — ballast blanket layer

рассе́ивающее покры́тие — diffusing coating

рези́новое покры́тие — rubber coating

светя́щееся покры́тие — fluorescent coating

свинцо́вое покры́тие — lead coat(ing)

силико́новое покры́тие — silicone coat(ing)

стеклови́дное покры́тие — vitreous coat(ing)

твердоспла́вное покры́тие — hard facing

тугопла́вкое покры́тие — refractory coat(ing)

покры́тие хими́ческой обрабо́ткой — chemical-conversion coat(ing)

ци́нковое покры́тие — zinc coat(ing)

покры́тие электро́да — electrode covering, electrode coat(ing)

покры́тие электро́да, газообразу́ющее свар. — gas-producing coating

покры́тие электро́да, известко́вое свар. — lime coating

покры́тие электро́да, ионизи́рующее свар. — arc-stabilizing coating

электролити́ческое покры́тие — electrodeposited coating

электрохими́ческое покры́тие — electrochemical plating

эма́левое покры́тие

1. ( процесс) enamelling

2. ( защитный слой) enamel

водоносный пласт

1) Geology: water bed, water-bearing stratum, aquifer reservoir, water formation

2) Engineering: aquifer, aquiferous stratum, bed, water seam, water-bearing bed, water-bearing deposit, water-carrying seam, waterbearing stratum, watered ground, watery stratum

3) Construction: water-yielding stratum

4) Oil: water producing formation, water sand

5) Ecology: aqueous layer, aquifer bed

6) Drilling: water bearing bed

7) Sakhalin energy glossary: water bearing sand, water-bearing formation

8) Makarov: aquafer

таким образом, подытоживая, можно сказать, что

Таким образом, подытоживая, можно сказать, что-- To summarize, then, this work has shown that the exit boundary-layer is more important than the nozzle design itself in producing a smooth clear jet.

Pat

PAT

Native term in the Himalayas for the outer glossy layer of hair found on pashm producing goats, the hair is long and similar to mohair. Kabul, Afghanistan, produces large cluantities which are used for the manufacture of the various grades of pattu. ————————

PATTI, or PAT

The hair of a goat, common in Kabul and Peshawar. It is used in making the fabric known as Pattu.

Cowper-Coles, Sherard Osborn

SUBJECT AREA: Metallurgy

[br]

b. 8 October 1866 East Harting, Sussex, England

d. 9 September 1936

[br]

English inventor of the sherardizing process for metal protection.

[br]

He was the son of Captain Cowper- Coles, Royal Navy, the inventor of the swivelling turret for naval guns. He inherited his father's inventive talents and investigated a variety of inventions in his workshop at his home at Sunbury-on-Thames, assisted by a number of scientific workers. He had been educated by governesses, but he lacked a sound scientific background. His inventions, rarely systematically pursued, ranged from electrolytic processes for making copper sheets and parabolic reflectors to a process for inlaying and decorating metallic surfaces. Overall, however, he is best known for the invention of "sherardizing", the process for producing a rustproof coating of zinc on small metallic articles. The discovery came by chance, when he was annealing iron and steel packed in zinc dust to exclude air. The metal was found to be coated with a thin layer of zinc with some surface penetration. The first patent for the process was obtained in 1900, and later the American rights were sold, with a company being formed in 1908 to control them. A small plant was set up in Chelsea, London, to develop the process to the point where it could be carried out on a commercial scale in a plant in Willesden. Sherardizing has not been a general protective finish, but is restricted to articles such as nuts and bolts which are then painted or finished. The process was still in use in 1977, operated by the Zinc Alloy Company (London) Ltd.

[br]

Further Reading

C.A.Smith, 1978, "Sherard Cowper-Coles: a review of the inception of sherardizing", Transactions of the Newcomen Society 49:1–4.

LRD

Tuve, Merle Antony

SUBJECT AREA: Telecommunications, Weapons and armour

[br]

b. 27 June 1901 Canton, South Dakota, USA

d. 20 May 1982 Bethesda, Maryland, USA

[br]

American physicist and geophysicist who developed radio exploration of the ionosphere and made contributions to seismology and atomic physics.

[br]

After BS and AM degrees from the University of Minnesota, Tuve gained a PhD in physics from Johns Hopkins University in 1926. He then joined the Department of Terrestrial Magnetism at the Carnegie Institute, Washington, DC, where with Breit he established by experiment the existence and characteristics of the ionosphere. He also studied gamma and beta rays, artificial radioactivity and atomic transmutation, verified the existence of the neutron and measured nuclear binding forces. During the Second World War he performed military research, producing a proximity fuse for use against the VI flying bomb. He returned to Carnegie in 1946 as Director of the Department of Terrestrial Magnetism, where he remained until 1966, making many contributions to the study of the earth and space.

[br]

Principal Honours and Distinctions

American Association for the Advancement of Science Prize for atomic and nuclear research 1931. National Academy of Science 1946. Research Corporation Award 1947. Comstock Prize 1948. National Academy of Science Barnard Medal 1955. Presidential Medal of Merit and Distinguished Service Member of the Carnegie Institute 1966.

Bibliography

1926, with G.Breit, "A test of the existence of the conducting layer", Physical Review 28:554 (gives an account of the early ionospheric studies).

See also: Appleton, Sir Edward Victor

KF