-
1 oxide
1) окисел
2) закисный
3) закись
4) окисный
5) окись
6) оксид
7) оксидный
– acid oxide
– amphoteric oxide
– basic oxide
– cupric oxide
– cuprous oxide
– field oxide
– gaye oxide
– indifferent oxide
– inert oxide
– magnesium oxide
– metal oxide
– nitric oxide
– normal oxide
– oxide catalyst
– oxide coating
– oxide film
– oxide flotation
– oxide mask
– oxide masking
– oxide printing
– oxide spot
copper oxide rectifier — выпрямитель купроксный, выпрямитель меднозакисный
native oxide layer — <chem.> слой оксидный исходный
-
2 iron
1) железо
2) железный
3) серный
4) утюг
5) утюжить
6) утюжный
7) чугунный
– Armco iron
– ball iron
– bit of soldering iron
– bulb iron
– carbon iron
– carbonyl iron
– direct-reduced iron
– dust iron
– electric iron
– fagotted iron
– ferric iron
– ferrous iron
– forge iron
– galvanized iron
– grab iron
– grappling iron
– hoop iron
– iron alloy
– iron alum
– iron bromide
– iron charge
– iron foundry
– iron loss
– iron meteorite
– iron minium
– iron mould
– iron nitride
– iron notch
– iron pyrite
– iron runner
– iron shot
– iron vitriol
– native iron
– natural iron
– off-grade iron
– oriented-grain iron
– Pallas iron
– plane iron
– powdered iron
– puddling iron
– red iron ore
– red-short iron
– rivet iron
– roofing iron
– scrap iron
– slaggy iron
– soldering iron
– sponge iron
– spongy iron
– tapping iron
– tramp iron
– welding iron
– wrought iron
ammonium iron alum — <chem.> квасцы аммиачножелезные
-
3 lower
1) нижний
2) бессировать
3) нижестоящий
4) опускать
5) понижать
6) снижать
7) низший
8) младший
9) низкокипящий
10) низкомолекулярный
– lower arm
– lower atmosphere
– lower barrier
– lower beam
– lower bearing
– lower bound
– lower bromide
– lower center
– lower course
– lower deck
– lower limit
– lower quartile
– lower semi-continuous
– lower semicontinuous
– lower transit
greatest lower bound — <math.> нижняя грань, точная нижняя грань
lower pitch limit — < radio> предел высоты тона нижний
-
4 oxide
2) окалина•-
acid oxide
-
alkene oxides
-
alkyl oxides
-
basic oxide
-
beryllium oxide
-
black copper oxide
-
black iron oxide
-
black oxide
-
brown iron oxide
-
buried oxide
-
calcium oxide
-
ceric oxide
-
chromic oxide
-
cobaltous oxide
-
dibutyltin oxide
-
diphenyl oxide
-
double oxide
-
ethylene oxide
-
ferric oxide
-
ferrous oxide
-
field oxide
-
gated oxide
-
gate oxide
-
glass-forming oxide
-
higher oxide
-
hydrated oxide
-
intermediate oxide
-
interstitial oxide
-
lanthanum oxide
-
lead oxide
-
leaded zinc oxide
-
linalool oxide
-
lower oxide
-
magnesium oxide
-
manganous oxide
-
mesityl oxide
-
natural black oxide
-
natural red oxide
-
nitric oxide
-
nitrous oxide
-
random oxides
-
red copper oxide
-
red lead oxide
-
red mercuric oxide
-
refrectory oxide
-
rose oxide
-
samarium oxide
-
semiconducting oxide
-
silicon oxide
-
silver oxide
-
sintered oxides
-
spinel-type oxides
-
stannic oxide
-
strontium oxide
-
styrene oxide
-
tantalum oxide
-
thermally grown oxide
-
tungstic oxide
-
tunnel oxide
-
ytterbium oxide
-
yttrium oxide
-
zinc oxide
-
zirconium oxide -
5 закись железа
-
6 закись
ж. lower oxide, monoxide, protoxide -
7 закись
за́кись ж.
lower oxide, monoxide, protoxideза́кись желе́за — lower iron [ferrous] oxide, iron monoxide, iron protoxide* * * -
8 закись железа
1) Engineering: ferrous iron, ferrous oxide, iron monoxide, lower iron2) Chemistry: iron oxide, iron protoxide3) Polymers: ferric oxide -
9 Nash, John
SUBJECT AREA: Architecture and building[br]b. c. 1752 (?) London, Englandd. 13 May 1835 Cowes, Isle of Wight[br]English architect and town planner.[br]Nash's name is synonymous with the great scheme carried out for his patron, the Prince Regent, in the early nineteenth century: the development of Marylebone Park from 1811 constituted a "garden city" for the wealthy in the centre of London. Although only a part of Nash's great scheme was actually achieved, an immense amount was carried out, comprising the Regent's Park and its surrounding terraces, the Regent's Street, including All Souls' Church, and the Regent's Palace in the Mall. Not least was Nash's exotic Royal Pavilion at Brighton.From the early years of the nineteenth century, Nash and a number of other architects took advantage of the use of structural materials developed as a result of the Industrial Revolution; these included wrought and cast iron and various cements. Nash utilized iron widely in the Regent Street Quadrant, Carlton House Terrace and at the Brighton Pavilion. In the first two of these his iron columns were masonry clad, but at Brighton he unashamedly constructed iron column supports, as in the Royal Kitchen, and his ground floor to first floor cast-iron staircase, in which he took advantage of the malleability of the material to create a "Chinese" bamboo design, was particularly notable. The great eighteenth-century terrace architecture of Bath and much of the later work in London was constructed in stone, but as nineteenth-century needs demanded that more buildings needed to be erected at lower cost and greater speed, brick was used more widely for construction; this was rendered with a cement that could be painted to imitate stone. Nash, in particular, employed this method at Regent's Park and used a stucco made from sand, brickdust, powdered limestone and lead oxide that was suited for exterior work.[br]Further ReadingTerence Davis, 1960, The Architecture of John Nash, Studio.——1966, John Nash: The Prince Regent's Architect, Country Life.Sir John Summerson, 1980, John Nash: Architect to King George IV, Allen \& Unwin.DY
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