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1 first quality steel
English-Russian big polytechnic dictionary > first quality steel
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2 first quality steel
Механика: высококачественная сталь -
3 first quality steel
Англо-русский словарь по машиностроению > first quality steel
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4 first quality steel
English-Russian dictionary of mechanical engineering and automation > first quality steel
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5 steel
сталь || стальной- abrasion-resistant steel
- acid Bessemer steel
- acid electric steel
- acid open-hearth steel
- acid steel
- acid-resisting steel
- age-hardenable steel
- ageing steel
- aircraft structural steel
- air-hardened steel
- air-hardening steel
- air-melted steel
- alkaliproof steel
- alkali-resistant steel
- alloy steel
- alloy tool steel
- alloyed steel
- alphatized steel
- aluminized steel
- aluminum grain-refined steel
- aluminum steel
- aluminum-coated steel
- aluminum-nickel steel
- aluminum-stabilized steel
- anchor steel
- angle steel
- annealed steel
- anticorrosion steel
- arc-furnace steel
- armco steel
- ausaging steel
- ausforming steel
- austenitic manganese steel
- austenitic Ni-Cr stainless steel
- austenitic stainless steel
- austenitic steel
- austenitic-carbidic steel
- austenitic-intermetallic steel
- automatic steel
- automobile steel
- axle steel
- bainitically heat-treated steel
- balanced steel
- ball bearing steel
- banding steel
- bandsaw steel
- bar steel
- basic Bessemer steel
- basic converter steel
- basic open-hearth steel
- basic oxygen steel
- bearing steel
- bearing-grade steel
- beaten steel
- beryllium steel
- Bessemer steel
- blanking steel
- blister steel
- blue steel
- boiler steel
- boron steel
- bottle-top steel
- bottom-run steel
- bright drawing steel
- bright steel
- bright-drawn steel
- bright-finished steel
- bronze steel
- bulb steel
- bulb-angle steel
- burned steel
- capped steel
- carbon nitrided steel
- carbon steel
- carbon tool steel
- carbonized steel
- carbon-martensite steel
- carbon-molybdenum steel
- carbon-vacuum deoxidized steel
- carburized steel
- carburizing steel
- case-hardened steel
- case-hardening steel
- cast steel
- cemented steel
- chain steel
- chilled steel
- chisel steel
- chrome steel
- chrome-manganese steel
- chrome-molybdenum steel
- chrome-nickel steel
- chrome-nickel-alloy steel
- chrome-nickel-molibdenum steel
- chrome-plated steel
- chrome-tungsten steel
- chrome-vanadium steel
- chromium steel
- chromium tool steel
- chromium-aluminum steel
- chromium-cobalt steel
- chromium-copper steel
- chromium-manganese steel
- chromium-molibdenum steel
- chromium-nickel steel
- chromium-nickel-molybdenum steel
- chromium-silicon steel
- chromium-tungsten steel
- chromium-tungsten-vanadium steel
- chromized steel
- clad steel
- cobalt steel
- cobalt-nickel steel
- coiled steel
- cold work steel
- cold-drawn steel
- cold-heading steel
- cold-rolled steel
- columbium-stabilized steel
- commercial forging steel
- commercial quality steel
- commercial steel
- common steel
- composite steel
- compound steel
- concrete-prestressing steel
- concrete-reinforcing steel
- constructional steel
- consumable electrode vacuum-melted steel
- controlled rimming steel
- converted steel
- converter steel
- copper steel
- copper-bearing steel
- copper-chromium steel
- copperclad steel
- copper-nickel steel
- copper-plated steel
- corrosion-resistant steel
- corrosion-resisting steel
- corrugated sheet steel
- CQ steel
- creep-resisting steel
- crucible steel
- crude steel
- cutlery-type stainless steel
- cyanided steel
- damascus steel
- damask steel
- DDQ steel
- dead-hard steel
- dead-melted steel
- dead-soft steel
- deep drawing quality steel
- deep drawing steel
- deep-hardening steel
- degasified steel
- deoxidized steel
- diamond tread steel
- die steel
- direct-process steel
- dirty steel
- dopped steel
- double-reduced steel
- double-refined steel
- double-shear steel
- drawn steel
- drill steel
- duplex steel
- dynamo sheet steel
- dynamo steel
- easily deformable steel
- EDD steel
- effervescent steel
- electric furnace steel
- electric steel
- electric tool steel
- electrical furnace steel
- emergency steel
- eutectoid steel
- exotic steel
- exposed quality steel
- extra deep drawing steel
- extrafine steel
- extrahard steel
- extrahigh tensile steel
- extrasoft steel
- face-hardened steel
- fagoted steel
- fashioned steel
- fast-finishing steel
- fast-machine steel
- faulty steel
- ferrite steel
- ferritic stainless steel
- ferritic steel
- fiery steel
- figured steel
- file steel
- fine steel
- fine-grained steel
- finished steel
- first quality steel
- flange steel
- flat steel
- flat-bulb steel
- flat-rolled steel
- forge steel
- forged steel
- forging die steel
- forging steel
- free-cutting steel
- free-machining steel
- fully deoxidized steel
- fully finished steel
- galvanized steel
- gear steel
- general purpose steel
- glass-hard steel
- grade steel
- graphitic steel
- graphitizable steel
- gun barrels steel
- gun steel
- Hadfield steel
- half-hard steel
- Halvan tool steel
- hammered steel
- hard cast steel
- hard steel
- hard-chrome steel
- hardened steel
- hard-grain steel
- heat-resistant steel
- heat-treated steel
- heavily alloyed steel
- heavy-fagoted steel
- heavy-melting steel
- hexagonal steel
- high-alloy steel
- high-carbon steel
- high-chromium steel
- high-cobalt steel
- high-creep strength steel
- high-ductility steel
- high-elastic limit steel
- higher-carbon steel
- high-grade steel
- high-hardenability core steel
- high-hardenability steel
- high-manganese steel
- high-nickel steel
- high-permeability steel
- high-quality steel
- high-resistance steel
- high-speed steel
- high-strength low alloy steel
- high-strength steel
- high-sulphur steel
- high-temperature steel
- high-tensile steel
- hollow drill steel
- hot die steel
- hot-brittle steel
- hot-rolled steel
- hot-work steel
- hot-working die steel
- hot-working steel
- HSLA steel
- H-steel
- hypereutectoid steel
- hyperpearlitic steel
- hypoeutectoid steel
- hypopearlitic steel
- Indian steel
- induction furnace steel
- induction vacuum melted steel
- ingot steel
- intermediate-alloy steel
- iron-chromium stainless steel
- irreversible steel
- killed steel
- knife steel
- knife-blade steel
- lead-coated steel
- leaded steel
- lean alloy steel
- ledeburitic steel
- light gage steel
- liquid-compressed steel
- loman steel
- low earing steel
- low-alloy steel
- low-alloyed steel
- low-carbon steel
- low-ductility steel
- low-expansion steel
- low-hardenability steel
- low-hardening steel
- low-manganese steel
- low-nickel steel
- low-phosphorus steel
- low-texture steel
- machine-tool steel
- magnet steel
- mandrel steel
- manganese steel
- manganese-killed steel
- manganese-silicon steel
- maraging steel
- martempering steel
- martensitic steel
- mechanically capped steel
- medium alloy steel
- medium-carbon steel
- medium-hard steel
- medium-strength steel
- medium-temper steel
- merchant steel
- mild steel
- milling steel
- mixed steel
- molybdenum steel
- needled steel
- nickel steel
- nickel-chrome steel
- nickel-chrome-molybdenum steel
- nickel-chromium steel
- nickel-chromium-molybdenum steel
- nickel-clad steel
- nickel-molybdenum steel
- nitrided steel
- nonaging steel
- noncorrosive steel
- nondeforming steel
- nonhardening steel
- nonmagnetic steel
- nonpiping steel
- nonrustic steel
- nonshrinking steel
- nonstrain-aging steel
- normal steel
- octagon steel
- oil-hardening steel
- open-hearth steel
- open-poured steel
- ordinary steel
- oriented steel
- overblown steel
- overheated steel
- over-reduced steel
- oxidation-resisting steel
- paragon steel
- pearlitic steel
- perished steel
- permanent-magnet steel
- PH steel
- piled steel
- pipe steel
- piped steel
- plain carbon steel
- plain steel
- planished sheet steel
- planished steel
- plate steel
- plow steel
- pneumatic steel
- polished sheet steel
- polished steel
- pot steel
- powder metallurgical compacted steel
- powdered metal high-speed steel
- precipitation-hardening steel
- precision steel
- pressure vessel steel
- primary steel
- puddle steel
- puddled steel
- punching steel
- purified steel
- PV steel
- QT steel
- quality steel
- quenched-and-tempered steel
- quick-cutting steel
- quick-speed steel
- rail steel
- railway structural steel
- rapid machining steel
- rapid steel
- raw steel
- red-hard steel
- refined steel
- refining steel
- refractory steel
- reinforcing steel
- rephosphorized steel
- resilient steel
- resulphurized steel
- rimmed steel
- rimming steel
- rising steel
- rivet steel
- rolled section steel
- rolled steel
- roller-bearing steel
- rose steel
- round steel
- rustless steel
- rust-resisting steel
- saw steel
- scrap steel
- screw steel
- secondary steel
- section steel
- selenium steel
- self-hardening steel
- semideoxidized steel
- semifinished steel
- semikilled steel
- shallow-hardening steel
- shape steel
- shear steel
- shearing steel
- sheet steel
- shock-resisting steel
- Siemens-Martin steel
- silchrome steel
- silicon steel
- silicon-killed steel
- silicon-manganese steel
- silver steel
- simple steel
- skelp steel
- slowly cooled steel
- soft steel
- special steel
- special treatment steel
- spheroidized steel
- spotty steel
- spring steel
- stabilized steel
- stainless clad steel
- stainless steel
- standard steel
- stock steel
- strain-aged steel
- stress-relieved annealed steel
- strip steel
- strong steel
- structural steel
- super-corrosion-resistant stainless steel
- superduty steel
- surface-hardening steel
- surgical steel
- tap steel
- tapped-on-carbon steel
- T-bulb steel
- tee-bulb steel
- tempered steel
- tensile strength steel
- ternary steel
- thermostrengthened steel
- Thomas steel
- through-hardening steel
- titanium steel
- titanium-stabilized steel
- tool steel
- Tor steel
- transformation induced plasticity steel
- transformer steel
- treated steel
- TRIP steel
- tube steel
- tungsten steel
- turbohearth steel
- two-ply steel
- tyre steel
- ultrastrong steel
- unkilled steel
- unsound steel
- vacuum carbon deoxidized steel
- vacuum degased steel
- vacuum-cast steel
- vacuum-induction melted steel
- vacuum-remelted steel
- valve steel
- vanadium steel
- water-hardening steel
- wear-resisting alloy steel
- weathering steel
- weld steel
- weldable steel
- welding steel
- wild steel
- wire rope steel
- Wootz steel
- wrought steelEnglish-Russian dictionary of mechanical engineering and automation > steel
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6 quality
1. n качество, сорт; свойство2. n уровень качества, класс, калибр3. n высокое качество; достоинство, ценность4. n часто качество, свойство, признак; характерная особенностьa person of excellent qualities — человек, обладающий прекрасными качествами
5. n физ. тембр6. n уст. знатность; положение в обществеpeople of quality — высшее общество, аристократия, знать, господа
7. n уст. знать8. a высококачественный, высокого качестваcertified quality — качество, подтвержденное сертификатом
Синонимический ряд:1. excellent (adj.) A1; bang-up; banner; blue-ribbon; bully; capital; champion; choice; classic; classical; excellent; famous; fine; first-class; first-rate; first-string; five-star; front-rank; Grade A; number one; outstanding; par excellence; prime; royal; select; skookum; sovereign; stunning; superior; top; top-notch; whiz-bang2. accomplishment (noun) accomplishment; attainment; deed; feat3. aristocracies (noun) aristocracies; blue bloods; carriage trade; creme de la creme; elites; flowers; gentilities; gentries; patriciates; societies; upper classes; upper crusts4. aristocracy (noun) aristocracy; aristoi; blue blood; elite; flower; gentility; gentry; haut monde; optimacy; patriciate; society; upper class; upper crust; who's who5. distinction (noun) distinction; superiority6. excellence (noun) arete; excellence; excellency; perfection7. property (noun) affection; attribute; character; characteristic; feature; mark; peculiarity; property; savor; savour; trait8. rank (noun) caliber; calibre; class; condition; description; grade; kind; merit; rank; refinement; stature; value; virtue; worth9. status (noun) capacity; footing; place; position; situation; standing; state; station; statusАнтонимический ряд:disqualification; failure; incapacity; inferior; inferiority; negation; nondescript; weakness -
7 top image quality
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8 Mushet, Robert Forester
SUBJECT AREA: Metallurgy[br]b. 8 April 1811 Coleford, Gloucestershire, Englandd. 19 January 1891 Cheltenham, Gloucestershire, England[br]English steelmaker who invented the first alloy steel.[br]Mushet acquired his metallurgical knowledge in his father's ironworks at Coleford in the Forest of Dean. In 1848 his attention seems to have been drawn to the use of manganese in ironworking, in the form of spiegeleisen, an alloy of iron and manganese derived from a Prussian iron ore consisting essentially of a double carbonate of iron and manganese. This alloy came into its own in 1856 with the invention of the Bessemer steelmaking process, for Mushet found that if molten spiegeleisen was added to the Bessemer iron the quality of the product was greatly improved. Mushet patented this process, but when he failed to pay the stamp duty due in 1859 his rights lapsed. Bessemer independently discovered the use of spiegeleisen, although Mushet continued to maintain his priority.Mushet's most important discovery was that of tungsten steel, the forerunner of a long line of alloy steels. While working a small crucible steelworks at Coleford, he was asked by a Scottish manufacturer to make a hard-metal tool, but he found that the metal was unsatisfactory. After experiments, he found that an alloy steel containing about 8 per cent tungsten possessed remarkable properties. It proved to be self-hardening, i.e. after forging and being allowed to cool, it was found to have become hardened, without the need for the heat treatment that was normally required. Also, unlike other hardened steels, it did not lose its hardness when heated even to dull-red heat. It would thus remain hard in a cutting tool that had run hot through deep cutting. Mushet's tungsten steel was brought into use in 1868 and was of great benefit to engineers, who were making increasing demands on cutting machines.[br]Further ReadingBiographical notice, 1878, Journal of the Iron and Steel Institute: 1–4.LRDBiographical history of technology > Mushet, Robert Forester
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9 Hadfield, Sir Robert Abbott
SUBJECT AREA: Metallurgy[br]b. 28 November 1858 Attercliffe, Sheffield, Yorkshire, Englandd. 30 September 1940 Kingston Hill, Surrey, England[br]English metallurgist and pioneer in alloy steels.[br]Hadfield's father, Robert, set up a steelworks in Sheffield in 1872, one of the earliest to specialize in steel castings. After his education in Sheffield, during which he showed an interest in chemistry, Hadfield entered his father's works. His first act was to set up a laboratory, where he began systematically experimenting with alloy steels in order to improve the quality of the products of the family firm. In 1883 Hadfield found that by increasing the manganese content to 12.5 per cent, with a carbon content of 1.4 per cent, the resulting alloy showed extraordinary resistance to abrasive wear even though it was quite soft. It was soon applied in railway points and crossings, crushing and grinding machinery, and wherever great resistance to wear is required. Its lack of brittleness led to its use in steel helmets during the First World War. Hadfield's manganese steel was also non-magnetic, which was later of importance in the electrical industry. Hadfield's other great invention was that of silicon steel. Again after careful and systematic laboratory work, Hadfield found that a steel containing 3–4 per cent silicon and as little as possible of other elements was highly magnetic, which was to prove important in the electrical industry (e.g. reducing the weight and bulk of electrical transformers). Hadfield took over the firm on the death of his father in 1888, but he continued to lay great stress on the need for laboratory research to improve the quality and range of products. The steel-casting side of the business led to a flourishing armaments industry, and this, together with their expertise in alloy steels, made Hadfield's one of the great names in Sheffield and British steel until, sadly, it succumbed along with so many other illustrious names during the British economic recession of 1983. Hadfield had a keen interest in metallurgical history, particularly in his characteristically thorough examination of the alloys of iron prepared by Faraday at the Royal Institution. Hadfield was an enlightened employer and was one of the first to introduce the eight-hour day.[br]Principal Honours and DistinctionsKnighted 1908. Baronet 1917. FRS 1909.BibliographyA list of Hadfield's published papers and other works is published with a biographical account in Obituary Notices of Fellows of the Royal Society (1940) 10.LRDBiographical history of technology > Hadfield, Sir Robert Abbott
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10 Krupp, Alfred
[br]b. 26 April 1812 Essen, Germanyd. 14 July 1887 Bredeney, near Essen, Germany[br]German manufacturer of steel and armaments.[br]Krupp's father founded a small cast-steel works at Essen, but at his early death in 1826 the firm was left practically insolvent to his sons. Alfred's formal education ended at that point and he entered the ailing firm. The expansion of trade brought about by the Zollverein, or customs union, enabled him to increase output, and by 1843 he had 100 workers under him, making steel springs and machine parts. Five years later he was able to buy out his co-heirs, and in 1849 he secured his first major railway contract. The quality of his product was usefully advertised by displaying a flawless 2-ton steel ingot at the Great Exhibition of 1851. Krupp was then specializing in the manufacture of steel parts for railways and steamships, notably a weldless steel tire for locomotives, from which was derived the three-ring emblem of the Krupp concern. Krupp made a few cannon from 1847 but sold his first to the Khedive of Egypt in 1857. Two years later he won a major order of 312 cannon from the Prussian Government. With the development of this side of the business, he became the largest steel producer in Europe. In 1862 he adopted the Bessemer steelmaking process. The quality and design of his cannon were major factors in the victory of the Prussian artillery bombardment at Sedan in the Franco- Prussian War of 1870. Krupp expanded further during the boom years of the early 1870s and he was able to gain control of German coal and Spanish iron-ore supplies. He went on to manufacture heavy artillery, with a celebrated testing ground at Osnabrück. By this time he had a workforce of 21,000, whom he ruled with benevolent but strict control. His will instructed that the firm should not be divided.[br]Further ReadingP.Batty, 1966, The House of Krupp (includes a bibliography). G.von Klass, 1954, Krupp: The Story of an Industrial Empire.LRD -
11 Gillott, Joseph
SUBJECT AREA: Paper and printing[br]b. 1799 Sheffield, Yorkshire d. 1877[br]English maker of steel pens.[br]The name Joseph Gillott became synonymous with pen making at a time when the basic equipment for writing was undergoing a change. The quill pen had served writers for centuries, but attempts had been made since the seventeenth century to improve on it. The first major technical development was the steel nib, which began to be made c.1829. The steel nib was still little known in Birmingham in 1839, but ten years later it was in common use. Its stiffness was at first a drawback, but Gillott was among the first to improve its flexibility by introducing three slots, which later became standard practice. Mechanical methods of manufacture made the pen cheaper and improved its quality. In 1840 Gillott issued a "precept" informing the public that he was pen maker to the Queen and that he had been manufacturing pens for twenty years at his Victoria Works in Birmingham. He announced the successful reception by the public of his new patent pen. There were also special "warranted school" pens designed for the various grades of writing taught in schools. Finally, he warned against inferior imitations and recommended the public to buy only those pens stamped with his name.[br]Further ReadingJ.T.Bunce and S.Timmins, c.1880 Joseph Gillott 1799–1877: A Sketch of His Life.H.Bore, 1890, The Story of the Invention of the Steel Pen, London.J.Whalley, 1975, Writing Implements and Accessories, Newton Abbot: David \& Charles.LRD -
12 Mies van der Rohe, Ludwig
SUBJECT AREA: Architecture and building[br]b. 27 March 1886 Aachen, Germanyd. 17 August 1969 Chicago, USA[br]German architect, third of the great trio of long-lived, second-generation modernists who established the international style in the inter-war years and brought it to maturity (See Jeanneret (Le Corbusier) and Gropius).[br]Mies van der Rohe was the son of a stonemason and his early constructional training came from his father. As a young man he gained experience of the modern school from study of the architecture of the earlier leaders, notably Peter Behrens, Hendrik Berlage and Frank Lloyd Wright. He commenced architectural practice in 1913 and soon after the First World War was establishing his own version of modern architecture. His building materials were always of the highest quality, of marble, stone, glass and, especially, steel. He stripped his designs of all extraneous decoration: more than any of his contemporaries he followed the theme of elegance, functionalism and an ascetic concentration on essentials. He believed that architectural design should not look backwards but should reflect the contemporary achievement of advanced technology in both its construction and the materials used, and he began early in his career to act upon these beliefs. Typical was his early concrete and glass office building of 1922, after which, more importantly, came his designs for the German Pavilion at the Barcelona Exposition of 1929. These designs included his famous Barcelona chair, made from chrome steel and leather in a geometrical design, one which has survived as a classic and is still in production. Another milestone was his Tugendhat House in Brno (1930), a long, low, rectilinear structure in glass and steel that set a pattern for many later buildings of this type. In 1930 Mies followed his colleagues as third Director of the Bauhaus, but due to the rise of National Socialism in Germany it was closed in 1933. He finally left Germany for the USA in 1937, and the following year he took up his post as Director of Architecture in Chicago at what is now known as the Illinois Institute of Technology and where he remained for twenty years. In America Mies van der Rohe continued to develop his work upon his original thesis. His buildings are always recognizable for their elegance, fine proportions, high-quality materials and clean, geometrical forms; nearly all are of glass and steel in rectangular shapes. The structure and design evolved according to the individual needs of each commission, and there were three fundamental types of design. One type was the single or grouped high-rise tower, built for apartments for the wealthy, as in his Lake Shore Drive Apartments in Chicago (1948–51), or for city-centre offices, as in his Seagram Building in New York (1954–8, with Philip Johnson) or his Chicago Federal Centre (1964). Another form was the long, low rectangle based upon the earlier Tugendhat House and seen again in the New National Gallery in Berlin (1965–8). Third, there were the grouped schemes when the commission called for buildings of varied purpose on a single, large site. Here Mies van der Rohe achieved a variety and interest in the different shapes and heights of buildings set out in spatial harmony of landscape. Some examples of this type of scheme were housing estates (Lafayette Park Housing Development in Detroit, 1955–6), while others were for educational, commercial or shopping requirements, as at the Toronto Dominion Centre (1963–9).[br]Further ReadingL.Hilbersheimer, 1956, Ludwig Mies van der Rohe, Chicago: P.Theobald.Peter Blake, 1960, Mies van der Rohe, Architecture and Structure, Penguin, Pelican. Arthur Drexler, 1960, Ludwig Mies van der Rohe, London: Mayflower.Philip Johnson, 1978, Mies van der Rohe, Seeker and Warburg.DYBiographical history of technology > Mies van der Rohe, Ludwig
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13 of
prepositiona friend of mine/the vicar's — ein Freund von mir/des Pfarrers
it's no business of theirs — es geht sie nichts an
where's that pencil of mine? — wo ist mein Bleistift?
2) (indicating starting point) vonwithin a mile of the centre — nicht weiter als eine Meile vom Zentrum entfernt
3) (indicating origin, cause)it was clever of you to do that — es war klug von dir, das zu tun
4) (indicating material) ausbe made of... — aus... [hergestellt] sein
5) (indicating closer definition, identity, or contents)the city of Chicago — die Stadt Chicago
increase of 10 % — Zuwachs/Erhöhung von zehn Prozent
battle of Hastings — Schlacht von od. bei Hastings
your letter of 2 January — Ihr Brief vom 2. Januar
be of value/interest to — von Nutzen/von Interesse od. interessant sein für
the whole of... — der/die/das ganze...
6) (indicating concern, reference)inform somebody of something — jemanden über etwas (Akk.) informieren
well, what of it? — (asked as reply) na und?
7) (indicating objective relation)his love of his father — seine Liebe zu seinem Vater
9) (indicating classification, selection) vonhe of all men — (most unsuitably) ausgerechnet er; (especially) gerade er
of an evening — (coll.) abends
* * *[əv]1) (belonging to: a friend of mine.) von2) (away from (a place etc); after (a given time): within five miles of London; within a year of his death.) von3) (written etc by: the plays of Shakespeare.) von4) (belonging to or forming a group: He is one of my friends.) von5) (showing: a picture of my father.) von6) (made from; consisting of: a dress of silk; a collection of pictures.) aus8) (about: an account of his work.) von9) (containing: a box of chocolates.) mit10) (used to show a cause: She died of hunger.) an11) (used to show a loss or removal: She was robbed of her jewels.) Genitiv12) (used to show the connection between an action and its object: the smoking of a cigarette.) Genitiv13) (used to show character, qualities etc: a man of courage.) mit14) ((American) (of time) a certain number of minutes before (the hour): It's ten minutes of three.) vor* * *of[ɒv, əv, AM ɑ:v, əv]people \of this island Menschen von dieser Inselthe language \of this country die Sprache dieses Landesthe cause \of the disease die Krankheitsursachethe colour \of her hair ihre Haarfarbethe government \of India die indische Regierunga friend \of mine ein Freund von mirsmoking is the worst habit \of mine Rauchen ist meine schlimmste Angewohnheitthis revolting dog \of hers ihr widerlicher Hundthe smell \of roses Rosenduft man admirer \of Picasso ein Bewunderer Picassosfive \of her seven kids are boys fünf ihrer sieben Kinder sind Jungenthere were ten \of us on the trip wir waren auf der Reise zu zehntnine \of the children came to the show neun Kinder kamen zur Vorstellungcan you please give me more \of the beans? könntest du mir noch etwas von den Bohnen geben?I don't want to hear any more \of that! ich will nichts mehr davon hören!he's the best-looking \of the three brothers er sieht von den drei Brüdern am besten ausa third \of the people ein Drittel der Leutethe whole \of the garden der ganze Gartenthe best \of friends die besten Freundethe days \of the week die Wochentageall \of us wir alleall \of us were tired wir waren alle müde\of all von allenbest \of all, I liked the green one am besten gefiel mir der grünethat \of all his films is my favourite er gefällt mir von allen seinen Filmen am bestenboth \of us wir beidemost \of them die meisten von ihnenone \of the cleverest eine(r) der Schlauestenhe's one \of the smartest \of the smart er ist einer der Klügsten unter den Klugena bunch \of parsley ein Bund Petersilie nta clove \of garlic eine Knoblauchzehea cup \of tea eine Tasse Teea drop \of rain ein Regentropfenhundreds \of people Hunderte von Menschena kilo \of apples ein Kilo Äpfel nta litre \of water ein Liter Wasser ma lot \of money eine Menge Gelda piece \of cake ein Stück Kuchena pride \of lions ein Rudel Löwen [o Löwenrudel] ntthe sweater is made \of the finest lambswool der Pullover ist aus feinster Schafwollea land \of ice and snow ein Land aus Eis und Schneedresses \of lace and silk Kleider aus Spitze und Seidea house \of stone ein Steinhaus, ein Haus aus Steina book \of short stories ein Buch mit Kurzgeschichtenthat was stupid \of me das war dumm von mirthe massacre \of hundreds \of innocent people das Massaker an Hunderten von Menschenthe destruction \of the rain forest die Zerstörung des Regenwaldsthe anguish \of the murdered child's parents die Qualen der Eltern des ermordeten Kindesthe suffering \of millions das Leiden von Millionento die \of sth an etw dat sterbenhe died \of cancer er starb an Krebs\of one's own free will aus freien Stücken, freiwillig\of oneself von selbstshe would never do such a thing \of herself so etwas würde sie nie von alleine tunthe works \of Shakespeare die Werke Shakespearesshe is \of noble birth sie ist adliger Abstammungwe will notify you \of any further changes wir werden Sie über alle Änderungen informierenhe was accused \of fraud er wurde wegen Betrugs angeklagtI know \of a guy who could fix that for you ich kenne jemanden, der das für dich reparieren kann\of her childhood, we know very little wir wissen nur sehr wenig über ihre Kindheitlet's not speak \of this matter lass uns nicht über die Sache redenspeaking \of sb/sth,... wo [o da] wir gerade von jdm/etw sprechen,...speaking \of time, do you have a watch on? da wir gerade von der Zeit reden, hast du eine Uhr?she's often unsure \of herself sie ist sich ihrer selbst oft nicht sicherI'm really appreciative \of all your help ich bin dir für all deine Hilfe wirklich dankbarhe was worthy \of the medal er hatte die Medaille verdientI am certain \of that ich bin mir dessen sicherthis is not uncharacteristic \of them das ist für sie nichts Ungewöhnlichesto be afraid \of sb/sth vor jdm/etw Angst habento be fond \of swimming gerne schwimmento be jealous \of sb auf jdn eifersüchtig seinto be sick \of sth etw satthaben, von etw dat genug habenthere was no warning \of the danger es gab keine Warnung vor der Gefahrhe has a love \of music er liebt die Musikhe's a doctor \of medicine er ist Doktor der Medizinthe idea \of a just society die Idee einer gerechten Gesellschaftthe memories \of her school years die Erinnerungen an ihre Schuljahrethe pain \of separation der Trennungsschmerzit's a problem \of space das ist ein Raumproblemhis promises \of loyalty seine Treueversprechento be in search \of sb/sth auf der Suche nach jdm/etw seinshe's in search \of a man sie sucht einen Mannthoughts \of revenge Rachegedanken pl▪ what \of sb? was ist mit jdm?and what \of Adrian? was macht eigentlich Adrian?what \of it? was ist schon dabei?, na und?on the point [or verge] \of doing sth kurz davor [o im Begriff] sein, etw zu tunI'm on the point \of telling him off ich werde ihn jetzt gleich rausschmeißenin the back \of the car hinten im Autothe zipper was on the back \of the dress der Reißverschluss war hinten am Kleidon the corner \of the street an der Straßeneckeon the left \of the picture links auf dem Bilda lake north/south \of the city ein See im Norden/Süden der StadtI've never been north \of Edinburgh ich war noch nie nördlich von Edinburghon the top \of his head [oben] auf seinem Kopfa rise \of 2% in inflation ein Inflationsanstieg von 2 Prozentthe stocks experienced an average rise \of 5% die Aktien sind im Durchschnitt um 5 % gestiegenat the age \of six im Alter von sechs Jahrenhe's a man \of about 50 er ist um die 50 Jahre altI hate this kind \of party ich hasse diese Art von Partythe city \of Prague die Stadt Pragshe has the face \of an angel sie hat ein Gesicht wie ein Engelthe grace \of a dancer die Anmut einer Tänzerinthe love \of a good woman die Liebe einer guten Fraushe gave a scream \of terror sie stieß einen Schrei des Entsetzens ausa man \of honour ein Mann von Ehrea moment \of silence ein Moment m der StilleI want a few minutes \of quiet! ich will ein paar Minuten Ruhe!a subject \of very little interest ein sehr wenig beachtetes Themaa woman \of great charm and beauty eine Frau von großer Wärme und Schönheitwe live within a mile \of the city centre wir wohnen eine Meile vom Stadtzentrum entferntshe came within two seconds \of beating the world record sie hat den Weltrekord nur um zwei Sekunden verfehltI got married back in June \of 1957 ich habe im Juni 1957 geheiratetthe eleventh \of March der elfte Märzthe first \of the month der erste [Tag] des Monatsthe most memorable events \of the past decade die wichtigsten Ereignisse des letzten Jahrzehntsthey were robbed \of all their savings ihnen wurden alle Ersparnisse geraubtI've him \of that nasty little habit ich habe ihm diese dumme Angewohnheit abgewöhnthis mother had deprived him \of love seine Mutter hat ihm ihre Liebe vorenthaltento get rid \of sb jdn loswerdenthe room was devoid \of all furnishings der Raum war ganz ohne Möbelthis complete idiot \of a man dieser Vollidiotthe month \of June der Monat Junithe name \of Brown der Name Brownshe died \of a Sunday morning sie starb an einem SonntagmorgenI like to relax with my favourite book \of an evening ich entspanne mich abends gerne mit meinem Lieblingsbuch\of late in letzter Zeitit's quarter \of five es ist viertel vor fünf [o BRD drei viertel fünf26.▶ \of all geradeJane, \of all people, is the last one I'd expect to see at the club gerade Jane ist die letzte, die ich in dem Klub erwartet hätteI can't understand why you live in Ireland, \of all places ich kann nicht verstehen, warum du ausgerechnet in Irland lebsttoday \of all days ausgerechnet heute▶ \of all the cheek [or nerve] das ist doch die Höhe!▶ to be \of sth:she is \of the opinion that doctors are only out to experiment sie glaubt, Ärzte möchten nur herumexperimentierenthis work is \of great interest and value diese Arbeit ist sehr wichtig und wertvoll* * *[ɒv, əv]prep1) (indicating possession or relation) von (+dat), use of genthe wife of the doctor — die Frau des Arztes, die Frau vom Arzt
a friend of ours — ein Freund/eine Freundin von uns
a painting of the Queen — ein Gemälde nt der or von der Königin
the first of the month — der Erste (des Monats), der Monatserste
that damn dog of theirs (inf) — ihr verdammter Hund (inf)
it is very kind of you —
it was nasty of him to say that — es war gemein von ihm, das zu sagen
2)(indicating separation in space or time)
south of Paris — südlich von Paris3)he died of poison/cancer — er starb an Gift/Krebshe died of hunger — er verhungerte, er starb hungers
4)he was cured of the illness — er wurde von der Krankheit geheilt5) (indicating material) ausdress made of wool — Wollkleid nt, Kleid nt aus Wolle
6)(indicating quality, identity etc)
house of ten rooms — Haus nt mit zehn Zimmernman of courage — mutiger Mensch, Mensch m mit Mut
girl of ten — zehnjähriges Mädchen, Mädchen nt von zehn Jahren
7)fear of God — Gottesfurcht fhe is a leader of men —
8)(subjective genitive)
love of God for man — Liebe Gottes zu den Menschen9)(partitive genitive)
the whole of the house — das ganze Hausthere were six of us — wir waren zu sechst, wir waren sechs
he asked the six of us to lunch — er lud uns sechs zum Mittagessen ein
the bravest of the brave —
he drank of the wine (liter) — er trank von dem Weine (liter)
10)(= concerning)
what do you think of him? — was halten Sie von ihm?= by)
forsaken of men — von allen verlassen12)he's become very quiet of late — er ist letztlich or seit Neuestem so ruhig geworden* * *of [ɒv; əv; US əv; ɑv] präp1. allg vonthe tail of the dog der Schwanz des Hundes;the tail of a dog der oder ein Hundeschwanz;the folly of his action die Dummheit seiner Handlung3. Ort: bei:4. Entfernung, Trennung, Befreiung:a) von:south of London südlich von London;within ten miles of London im Umkreis von 10 Meilen um London;cure (rid) of sth von etwas heilen (befreien)b) (gen) he was robbed of his wallet er wurde seiner Brieftasche beraubt, ihm wurde die Brieftasche geraubtc) um:5. Herkunft: von, aus:of good family aus einer guten Familie;Mr X of London Mr. X aus Londona friend of mine ein Freund von mir, einer meiner Freunde;that red nose of his seine rote Nase7. Eigenschaft: von, mit:a man of courage ein mutiger Mann, ein Mann mit Mut;a man of no importance ein unbedeutender Mensch;a fool of a man ein (ausgemachter) Narr8. Stoff: aus, von:a dress of silk ein Kleid aus oder von Seide, ein Seidenkleid;(made) of steel aus Stahl (hergestellt), stählern, Stahl…9. Urheberschaft, Art und Weise: von:of o.s. von selbst, von sich aus;he has a son of his first marriage er hat einen Sohn aus erster Ehe10. Ursache, Grund:a) von, an (dat):die of cancer an Krebs sterbenb) aus:c) vor (dat): → academic.ru/1052/afraid">afraidd) auf (akk):e) über (akk):f) nach:it is true of every case das trifft in jedem Fall zu12. Thema:a) von, über (akk):b) an (akk):13. Apposition, im Deutschen nicht ausgedrückt:a) the city of London die Stadt London;the month of April der Monat Aprilb) Maß:a piece of meat ein Stück Fleisch14. Genitivus obiectivus:a) zu:c) bei:an audience of the king eine Audienz beim König15. Zeit:a) umg an (dat), in (dat):of an evening eines Abends;of late years in den letzten Jahrenb) von:your letter of March 3rd Ihr Schreiben vom 3. März* * *preposition1) (indicating belonging, connection, possession)a friend of mine/the vicar's — ein Freund von mir/des Pfarrers
2) (indicating starting point) von3) (indicating origin, cause)it was clever of you to do that — es war klug von dir, das zu tun
4) (indicating material) ausbe made of... — aus... [hergestellt] sein
5) (indicating closer definition, identity, or contents)increase of 10 % — Zuwachs/Erhöhung von zehn Prozent
battle of Hastings — Schlacht von od. bei Hastings
your letter of 2 January — Ihr Brief vom 2. Januar
be of value/interest to — von Nutzen/von Interesse od. interessant sein für
the whole of... — der/die/das ganze...
6) (indicating concern, reference)inform somebody of something — jemanden über etwas (Akk.) informieren
well, what of it? — (asked as reply) na und?
8) (indicating description, quality, condition)9) (indicating classification, selection) vonhe of all men — (most unsuitably) ausgerechnet er; (especially) gerade er
of an evening — (coll.) abends
* * *prep.aus präp.von präp.vor präp.über präp. -
14 Nervi, Pier Luigi
[br]b. 21 June 1891 Sondrio, Italyd. 9 January 1979 (?), Italy[br]Italian engineer who played a vital role in the use and adaptation of reinforced concrete as a structural material from the 1930s to the 1970s.[br]Nervi early established a reputation in the use of reinforced concrete with his stadium in Florence (1930–2). This elegant concrete structure combines graceful curves with functional solidity and is capable of seating some 35,000 spectators. The stadium was followed by the aircraft hangars built for the Italian Air Force at Orvieto and Ortebello, in which he spanned the vast roofs of the hangars with thin-shelled vaults supported by precast concrete beams and steel-reinforced ribs. The structural strength and subtle curves of these ribbed roofs set the pattern for Nervi's techniques, which he subsequently varied and elaborated on to solve problems that arose in further commissions.Immediately after the Second World War Italy was short of supplies of steel for structural purposes so, in contrast to the USA, Britain and Germany, did not for some years construct any quantity of steel-framed rectangular buildinngs used for offices, housing or industrial use. It was Nervi who led the way to a ferroconcrete approach, using a new type of structure based on these materials in the form of a fine steel mesh sprayed with cement mortar and used to roof all kinds of structures. It was a method that resulted in expressionist curves instead of rectangular blocks, and the first of his great exhibition halls at Turin (1949), with a vault span of 240 ft (73 m), was an early example of this technique. Nervi continued to create original and beautiful ferroconcrete structures of infinite variety: for example, the hall at the Lido di Roma, Ostia; the terme at Chianciano; and the three buildings that he designed for the Rome Olympics in 1960. The Palazzetto dello Sport is probably the most famous of these, for which he co-operated with the architect Annibale Vitellozzi to construct a small sports palace seating 5,000 spectators under a concrete "big top" of 194 ft (59 m) diameter, its enclosing walls supported by thirtysix guy ropes of concrete; inside, the elegant roof displays a floral quality. In 1960 Nervi returned to Turin to build his imaginative Palace of Labour for the centenary celebrations of Garibaldi and Victor Emmanuel in the city. This vast hall, like the Crystal Palace in England a century earlier (see Paxton), had to be built quickly and be suitable for later adaptation. It was therefore constructed partly in steel, and the metal supporting columns rose to palm-leaf capitals reminiscent of those in ancient Nile palaces.Nervi's aim was always to create functional buildings that simultaneously act by their aesthetic qualities as an effective educational influence. Functionalism for Nervi never became "brutalism". In consequence, his work is admired by the lay public as well as by architects. He collaborated with many of the outstanding architects of the day: with Gio Ponti on the Pirelli Building in Milan (1955–9); with Zehrfuss and Breuer on the Y-plan UNESCO Building in Paris (1953–7); and with Marcello Piacentini on the 16,000-seat Palazzo dello Sport in Rome. Nervi found time to write a number of books on building construction and design, lectured in the Universities of Rio de Janiero and Buenos Aires, and was for many years Professor of Technology and Technique of Construction in the Faculty of Architecture at the University of Rome. He continued to design new structures until well into the 1970s.[br]Principal Honours and DistinctionsRIBA Royal Gold Medal 1960. Royal Institute of Structural Engineers Gold Medal 1968. Honorary Degree Edinburgh University, Warsaw University, Munich University, London University, Harvard University. Member International Institute of Arts and Letters, Zurich; American Academy of Arts and Sciences; Royal Academy of Fine Arts, Stockholm.Bibliography1956, Structures, New York: Dodge.1945, Scienza o Arte del Costruire?, Rome: Bussola.Further ReadingP.Desideri et al., 1979, Pier Luigi Nervi, Bologna: Zanichelli.A.L.Huxtable, 1960, Masters of World Architecture; Pier Luigi Nervi, New York: Braziller.DY -
15 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 -
16 Chevenard, Pierre Antoine Jean Sylvestre
SUBJECT AREA: Metallurgy[br]b. 31 December 1888 Thizy, Rhône, Franced. 15 August 1960 Fontenoy-aux-Roses, France[br]French metallurgist, inventor of the alloys Elinvar and Platinite and of the method of strengthening nickel-chromium alloys by a precipitate ofNi3Al which provided the basis of all later super-alloy development.[br]Soon after graduating from the Ecole des Mines at St-Etienne in 1910, Chevenard joined the Société de Commentry Fourchambault et Decazeville at their steelworks at Imphy, where he remained for the whole of his career. Imphy had for some years specialized in the production of nickel steels. From this venture emerged the first austenitic nickel-chromium steel, containing 6 per cent chromium and 22–4 per cent nickel and produced commercially in 1895. Most of the alloys required by Guillaume in his search for the low-expansion alloy Invar were made at Imphy. At the Imphy Research Laboratory, established in 1911, Chevenard conducted research into the development of specialized nickel-based alloys. His first success followed from an observation that some of the ferro-nickels were free from the low-temperature brittleness exhibited by conventional steels. To satisfy the technical requirements of Georges Claude, the French cryogenic pioneer, Chevenard was then able in 1912 to develop an alloy containing 55–60 per cent nickel, 1–3 per cent manganese and 0.2–0.4 per cent carbon. This was ductile down to −190°C, at which temperature carbon steel was very brittle.By 1916 Elinvar, a nickel-iron-chromium alloy with an elastic modulus that did not vary appreciably with changes in ambient temperature, had been identified. This found extensive use in horology and instrument manufacture, and even for the production of high-quality tuning forks. Another very popular alloy was Platinite, which had the same coefficient of thermal expansion as platinum and soda glass. It was used in considerable quantities by incandescent-lamp manufacturers for lead-in wires. Other materials developed by Chevenard at this stage to satisfy the requirements of the electrical industry included resistance alloys, base-metal thermocouple combinations, magnetically soft high-permeability alloys, and nickel-aluminium permanent magnet steels of very high coercivity which greatly improved the power and reliability of car magnetos. Thermostatic bimetals of all varieties soon became an important branch of manufacture at Imphy.During the remainder of his career at Imphy, Chevenard brilliantly elaborated the work on nickel-chromium-tungsten alloys to make stronger pressure vessels for the Haber and other chemical processes. Another famous alloy that he developed, ATV, contained 35 per cent nickel and 11 per cent chromium and was free from the problem of stress-induced cracking in steam that had hitherto inhibited the development of high-power steam turbines. Between 1912 and 1917, Chevenard recognized the harmful effects of traces of carbon on this type of alloy, and in the immediate postwar years he found efficient methods of scavenging the residual carbon by controlled additions of reactive metals. This led to the development of a range of stabilized austenitic stainless steels which were free from the problems of intercrystalline corrosion and weld decay that then caused so much difficulty to the manufacturers of chemical plant.Chevenard soon concluded that only the nickel-chromium system could provide a satisfactory basis for the subsequent development of high-temperature alloys. The first published reference to the strengthening of such materials by additions of aluminium and/or titanium occurs in his UK patent of 1929. This strengthening approach was adopted in the later wartime development in Britain of the Nimonic series of alloys, all of which depended for their high-temperature strength upon the precipitated compound Ni3Al.In 1936 he was studying the effect of what is now known as "thermal fatigue", which contributes to the eventual failure of both gas and steam turbines. He then published details of equipment for assessing the susceptibility of nickel-chromium alloys to this type of breakdown by a process of repeated quenching. Around this time he began to make systematic use of the thermo-gravimetrie balance for high-temperature oxidation studies.[br]Principal Honours and DistinctionsPresident, Société de Physique. Commandeur de la Légion d'honneur.Bibliography1929, Analyse dilatométrique des matériaux, with a preface be C.E.Guillaume, Paris: Dunod (still regarded as the definitive work on this subject).The Dictionary of Scientific Biography lists around thirty of his more important publications between 1914 and 1943.Further Reading"Chevenard, a great French metallurgist", 1960, Acier Fins (Spec.) 36:92–100.L.Valluz, 1961, "Notice sur les travaux de Pierre Chevenard, 1888–1960", Paris: Institut de France, Académie des Sciences.ASDBiographical history of technology > Chevenard, Pierre Antoine Jean Sylvestre
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17 Freyssinet, Eugène
[br]b. 13 July 1879 Objat, Corrèze, Franced. 8 June 1962 Saint-Martin Vésubié, France[br]French civil engineer who is generally recognized as the originator of pre-stressed reinforced concrete.[br]Eugène Freyssinet was an army engineer during the First World War who pioneered pre-stressed reinforced concrete and experimented with building concrete bridges. After 1918 he formed his own company to develop his ideas. He investigated the possibilities of very high-strength concrete, and in so doing studied shrinkage and creep. He combined high-quality concrete with highly stressed, stretched steel to give top quality results. His work in 1926 on Plougastel Bridge, at that time the longest reinforced concrete bridge, is a notable example of his use of this technique. In 1916 Freyssinet had built his famous airship hangars at Orly, which were destroyed in the Second World War; the hangars were roofed in parabolic sections to a height of about 200 ft. In 1934 he succeeded in saving the Ocean Terminal at Le Havre from sinking into the mud and being covered by the sea by using his pre-stressing techniques. By 1938 he had developed a superior method of pre-stressing with steel which led to widespread adoption of his methods.[br]Further ReadingC.C.Stanley, 1979, Highlights in the History of Concrete, Cement and Concrete Association.1977, Who's Who in Architecture, Weidenfeld and Nicolson.DY -
18 MacGregor, Robert
SUBJECT AREA: Ports and shipping[br]b. 1873 Hebburn-on-Tyne, Englandd. 4 October 1956 Whitley Bay, England[br]English naval architect who, working with others, significantly improved the safety of life at sea.[br]On leaving school in 1894, MacGregor was apprenticed to a famous local shipyard, the Palmers Shipbuilding and Iron Company of Jarrow-on-Tyne. After four years he was entered for the annual examination of the Worshipful Company of Shipwrights, coming out top and being nominated Queen's Prizeman. Shortly thereafter he moved around shipyards to gain experience, working in Glasgow, Hull, Newcastle and then Dunkirk. His mastery of French enabled him to obtain in 1906 the senior position of Chief Draughtsman at an Antwerp shipyard, where he remained until 1914. On his return to Britain, he took charge of the small yard of Dibbles in Southampton and commenced a period of great personal development and productivity. His fertile mind enabled him to register no fewer than ten patents in the years 1919 to 1923.In 1924 he started out on his own as a naval architect, specializing in the coal trade of the North Sea. At that time, colliers had wooden hatch covers, which despite every caution could be smashed by heavy seas, and which in time of war added little to hull integrity after a torpedo strike. The International Loadline Committee of 1932 noted that 13 per cent of ship losses were through hatch failures. In 1927, designs for selftrimming colliers were developed, as well as designs for steel hatch covers. In 1928 the first patents were under way and the business was known for some years as MacGregor and King. During this period, steel hatch covers were fitted to 105 ships.In 1937 MacGregor invited his brother Joseph (c. 1883–1967) to join him. Joseph had wide experience in ship repairs and had worked for many years as General Manager of the Prince of Wales Dry Docks in Swansea, a port noted for its coal exports. By 1939 they were operating from Whitley Bay with the name that was to become world famous: MacGregor and Company (Naval Architects) Ltd. The new company worked in association with the shipyards of Austin's of Sunderland and Burntisland of Fife, which were then developing the "flatiron" colliers for the up-river London coal trade. The MacGregor business gained a great boost when the massive coastal fleet of William Cory \& Son was fitted with steel hatches.In 1945 the brothers appointed Henri Kummerman (b. 1908, Vienna; d. 1984, Geneva) as their sales agent in Europe. Over the years, Kummerman effected greater control on the MacGregor business and, through his astute business dealings and his well-organized sales drives worldwide, welded together an international company in hatch covers, cargo handling and associated work. Before his death, Robert MacGregor was to see mastery of the design of single-pull steel hatch covers and to witness the acceptance of MacGregor hatch covers worldwide. Most important of all, he had contributed to great increases in the safety and the quality of life at sea.[br]Further ReadingL.C.Burrill, 1931, "Seaworthiness of collier types", Transactions of the Institution of Naval Architechts.S.Sivewright, 1989, One Man's Mission-20,000 Ships, London: Lloyd's of London Press.See also: Ayre, Sir Amos LowreyFMW -
19 tool
1) инструмент; орудие, орудие производства2) резец; инструмент, режущий инструмент; черновой резец ( зубострогального станка)3) приспособление; оснастка4) pl инструментарий; средства; совокупность инструментов6) налаживать ( станок)•to adjust the tool axially — регулировать инструмент в осевом направлении, смещать инструмент в осевом направлении
- 3D modeling toolsto tool roughly — начерно обрабатывать, грубо обрабатывать
- abrading tool
- abrasive tool
- AC-assisted machine tool
- activated tool
- adapter tool
- adjusting tool
- AI tools
- AI-based modeling tools
- air tool
- alternate tool
- analysis tool
- angle head tool
- angle portable tool
- angled tool
- angle-drilling tool
- annular broaching tool
- antivibration jumper installing tool
- application tools
- arm tool
- assembly tool
- assigned tool
- auxiliary tool
- backspot-facing tool
- backup tool
- back-working tool
- bad tool
- ball nose end cutting tool
- ball-nosed cutting tool
- band tool
- bending tool
- bent tool
- best tools
- blanking tool
- block tool
- boring tool
- box tool
- brazed tool
- brazed-tip tool
- broach tool
- broaching tool
- broad-nose finishing tool
- broad-nosed finishing tool
- broad-nosed tool
- broad-parting tool
- broad-tool
- BTA tool
- bucking tool
- burnishing tool
- burring tool
- cam-controlled machine tool
- carbide tool
- carbide-faced tool
- carbide-inserted tool
- carbide-tipped tool
- carbon-steel tool
- cartridge-type tool
- caulking tool
- CBN cutting tool
- CBN tool
- cemented carbide tool
- cemented-oxide tool
- center tool
- centering tool
- centering-and-facing tool
- ceramic tool
- chamfering tool
- chasing tool
- chemical vapor deposited tools
- chipped tool
- circular form tool
- circular tool
- clamped-tip tool
- clamping tool
- clipping tool
- CNC tools
- CNC ultra-precision machine tool
- CNC-sharpened tool
- coated tool
- coated-carbide cutting tool
- coining press tool
- collet release tool
- collet tool
- combination internal-external tool
- combination machine tool
- combination tool
- combined tool
- computer-controlled machine tool
- contour form milling tool
- contour milling tool
- contour turning tool
- control tools
- coolant-fed tool
- copy lathe tool
- copying tool
- cordless SPC tool
- core tool
- corrugated tool
- counterboring tool
- counter-rotating tool
- cross-drilling/milling tools
- crossworking tool
- crowning shaving tool
- cubic-boron-nitride cutting tool
- cup tool
- curling press tool
- customized machine tool
- cutoff tool
- cutter tool
- cutting laser tool
- cutting tool with inserted blades
- cutting tool
- cutting-off bit tool
- cutting-off tool
- CVD tools
- dead-end tool
- debugging tools
- deburring tool
- dedicated tool
- deep pocket tool
- design tools
- design verification tools
- development tools
- diagnostics tools
- diamond burnishing tool
- diamond tool
- diamond-coated tool
- diamond-edge tool
- diamond-plated tool
- diamond-turning tool
- digitized tool
- disposable cutting tools
- disposable insert tool
- DNC machine tool
- DNC-supported machine tool
- double-acting deburring tool
- double-diameter tool
- double-index roughing tool
- dressing tool
- drill burnishing tool
- drill tool
- drill/tap tool
- drilling tool
- driven tool
- driving tool
- duplicate tools
- edge tool
- EDM tool
- embossing press tool
- end mill tool
- end tool
- end-cutting tool
- end-working tool
- engraving tool
- erecting tool
- expandable abrading tool
- expanding block boring tool
- expanding block-type boring tool
- external tool
- external turning tool
- face grooving tool
- facing tool
- fastening tool
- feed-out tool
- fillet tool
- filleting tool
- fine boring tool
- finish tool
- finish-cut tool
- finishing tool
- first-selection backup tools
- fixed tool
- flat form tool
- flatted parallel shank tool
- flooded coolant tool
- fluted tool
- fly tool
- follow tools
- form tool
- forming machine tool
- forming tool
- fresh cutting tool
- front endworking tool
- gaged master tool
- ganged tools
- gear cutting tool
- gear tool
- general-purpose machine tool
- generating tool
- gooseneck tool
- grabbing tool
- grinding tool
- gripper tool
- gripping tool
- grooving tool
- hand-guided tool
- hand-held grinding tool
- hand-held tool
- hard pointed tool
- heading tool
- heavy-duty machine tool
- high-positive geometry tool
- high-positive-rake tool
- high-speed machine tool
- high-speed steel tool
- high-speed steel-cutting tool
- high-usage tools
- hold-down tool
- honing tool
- hot-set tool
- ID step tool
- ID tool
- idling tool
- image acquisition tools
- impregnated abrasive tool
- impregnated diamond tool
- inactive tool
- indexable cutting tool
- indexable-insert tool
- indexing machine tool
- infeed slide tool
- injection tool
- in-line powered tool
- insert tool
- inserted blade-type tool
- inserted carbide tool
- inserted tip tool
- insertion tool
- inside corner tool
- inside recessing tool
- inside turning tool
- inspection tool
- installation tool
- integrated tools
- integration tools
- interactive design tools
- internal boring tool
- internal diameter tool
- internally operating tool
- inward flanging press tool
- ironing press tool
- irradiated tool
- knowledge engineering tools
- knurling tool
- lab-quality inspection tool
- lancing press tool
- lapping tool
- large hybrid system building tools
- large narrow system building tools
- laser alignment tools
- laser leveling tool
- laser tool
- lathe tool
- layout tool
- left-hand tool
- leveling tool
- LH tool
- life-expired tool
- linear mounted tool
- locating tool
- logic-synthesis tools
- machine tool
- machining tool
- manually adjustable tool
- marking tool
- master tool
- measuring tool
- metal-cutting tool
- metalforming machine tool
- microsizing tool
- migrating tool
- milling tool
- miniCNC machine tool
- misplaced tool
- mis-set tool
- modeling tools
- modular tool
- mold tool
- molding tool
- monocrystalline diamond tool
- multicavity molding tool
- multifaceted tool
- multifluted tool
- multigrooving tool
- multiimpression injection tool
- multiple blanking tool
- multiple insert tool
- multiple-cavity mold tool
- multiple-impression press tool
- multipoint tool
- multipoint-cutting tool
- multitoothed tool
- narrow system building tools
- NC machine tool
- NC tool
- negative-rake cutting tool
- noncutting machine tool
- nonrotating tool
- notching press tool
- odd-fluted cutting tool
- OD-turning tool
- OD-working tool
- offset tool
- oil hole tool
- old tool
- one-sensor-one tool
- operating tool
- order-related tool
- outward flanging press tool
- pallet tools
- parallel-shank tool
- parallel-shanked tool
- particle-type dressing tool
- parting press tool
- parting tool
- part-off tool
- PCD tool
- percussive tool
- perishable tool
- physicochemical machine tool
- pickup tool
- piercing tool
- placement tool
- planer tool
- planing tool
- platen-mounted tool
- pneumatic tool
- polishing machine tool
- polycrystalline CBN cutting tool
- polycrystalline-diamond-edge tool
- polycrystalline-diamond-tipped tool
- polygon tool
- polygonal tool
- portable air tool
- portable expanding tool
- portable pneumatic tool
- portable power tool
- portable sinking tool
- portable tool
- positive/negative tool
- positive/positive tool
- positive-rake cutting tool
- positive-rake tool
- power tools
- powered rotary tool
- powered tool
- power-positioned tool
- preadjusted tool
- preformed boring tool
- preset qualified tool
- preset tool
- presettable tool
- press tool
- prismatic tool
- probe tool
- process tool
- processing tool
- production machine tool
- profiling tool
- programming tools
- protuberance tool
- punching press tool
- qualified tool
- quick-change tools
- rack-type tool
- radial cutting tool
- radioactive tool
- random tool
- rapid change tool
- rapidly wearing tool
- rear endworking tool
- rebuilt machine tool
- recessing tool
- reciprocating gear cutting tool
- reconditioned tool
- refurbished tool
- replaceable-insert tool
- replacement tool
- retrofitted machine tool
- RH tool
- right-angled powered tool
- right-hand tool
- rivet shaving tool
- roller-burnishing tool
- roll-forming tool
- rolling-in tool
- rotary pneumatic tool
- rotary tool
- rotating tool
- rotating turret tool
- rough boring tool
- rough cut tool
- roughing tool
- rough-turning tool
- round tool
- rounded tool
- round-nose tool
- round-nosed tool
- router tool
- routing tool
- scraping tool
- screw-cutting tool
- screw-rolling tool
- second selection backup tools
- segmented bulging press tool
- self-correcting tool
- shank tool
- shankless cutting tool
- shaped tool
- shaper-cutting tool
- shaping tool
- shared tools
- shaving press tool
- shaving tool
- shear tool
- short chipping tool
- side cutting tool
- side tool
- silicon nitride cutting tools
- silicon nitride tool
- simulation tools
- single-crystal tool
- single-layer tool
- single-pass tool
- single-point threading tool
- single-point tool
- single-purpose machine tool
- single-tip tool
- sister tool
- slitting tool
- slotting tool
- smoothing roller tool
- software development tools
- software tools
- software-based integration tools
- solid bit tool
- solid carbide tool
- solid modeling tools
- solid tool
- SPC tool
- specialized machine tool
- specially outfitted machine tool
- spent tool
- spindle probe tool
- spinning tool
- spline drive tool
- split bulging press tool
- spot-facing tool
- spotting tool
- square cutting tool
- square thread tool
- stamping tool
- static tool
- stationary tool
- step tool
- straight portable tool
- straight shank tool
- straight tool
- straight turning tool
- stripping tool
- stub boring tool
- superabrasive-plated tool
- support tools
- surfacing tool
- swan-neck tool
- sweep tool
- sweeping tool
- tail-end tools
- taper shank tool
- tapered shank tool
- tapping tool
- taught tool
- testing tools
- thermal tool
- thread milling tool
- thread turning tool
- thread-cutting tool
- threaded shank tool
- threading tool
- thread-rolling tool
- throwaway carbide tool
- throwaway insert tool
- throwaway tip tool
- throwaway tool
- tipped tool
- titanium-carbide-coated tool
- to tool up
- touch sensitive tool
- transfer tool
- transparent tool
- trepanning tool
- triangular cutting tool
- trim tool
- truing tool
- tube-expanding tool
- Tunruf tool
- turning tool
- turret tool
- ultrasonic tool
- undercutting tool
- underrun tool
- underused tool
- underutilized tool
- undetected broken tool
- unit-type machine tool
- universal boring and thread milling tool
- unmanned machine tool
- untended CNC machine tool
- versatile machine tool
- vibrating tool
- viscous damped tool
- visualization tools
- V-thread tool
- wear-prone tool
- welding laser tool
- wide-finishing tool
- wire-forming tool
- wireless measuring tool
- wobble broach tool
- wood-cutting tool
- workplace tool
- worm-configured tool
- worn cutting tool
- X-axis tool
- Y-axis tool
- Z-axis toolEnglish-Russian dictionary of mechanical engineering and automation > tool
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20 printing
1. печать, печатание2. фотографическое копирование; копирование на формную пластину3. печатное издание4. тираж5. полиграфия, полиграфическая промышленность6. различные сорта печатной бумагиprinting together — печатание «со своим оборотом»
printing two-up — печатание двойников, параллельное печатание с двух одинаковых форм
printing verse — печатание на обороте, запечатывание оборотной стороны
address printing — адресование, печатание адреса
arc printing — дуговая печать, печатание с помощью электрической дуги
7. печатание на оборотной стороне прозрачной плёнкиbackground printing — фоновая печать, печатание фона
bible printing — словарная бумага, библьдрук
bichromate printing — печатание с форм, изготовленных с использованием хромированных коллоидов
8. печатание голубой краской; светокопирование9. изготовление синих копий, изготовление «синек»Braille printing — Брайлевская печать, печать для слепых
bronze printing — бронзирование, печатание бронзовой краской
10. печатание на картонных заготовках; печатание на картоне11. производство картонных упаковокcode printing — печатание кодовых меток, печатание кодовых знаков, кодирование, шифрование
12. цветная печатная бумагаcolor process printing — многокрасочное печатание с форм, изготовленных фотомеханическим способом
13. контактная печать14. контактное копированиеprinting lamp — лампа для копирования, копировальная лампа
15. печатание издания в нескольких вариантах с учётом интересов потребителей16. печатание по требованию одного экземпляра издания17. прямое контактное копирование18. прямая печать19. печатание с первичной формы20. печатание изобразительной продукцииprinting contrast — контраст, реализуемый при печатании
21. печатание на прозрачном материалеdot-in-dot printing — печатание с точной приводкой, печатание «точка в точку»
dot matrix character printing — печатание знаков, формируемых точечной матрицей
printing process — печатный процесс; процесс печатания
22. двукратное запечатывание23. комбинирование деталей двух разных негативов на одном позитиве или печатной формеduotone printing — печатание двухкрасочных репродукций с одноцветного оригинала, дуплекс-автотипия
electrophoretic printing — электрофоретическая печать, способ электрофоретической печати
electrostatographic printing — электрография, электрографическая печать
embossed printing for blind — рельефная печать для слепых, Брайлевская печать
facsimile printing — факсимильное воспроизведение, факсимильная печать
ferromagnetic printing — печатание ферромагнитными красками, магнитографская печать, магнитография
flat-bed printing — печатание на плоскопечатных машинах, печатание с плоских форм высокой печати
flexographic printing — флексографская печать, печатание с эластичных форм
form skip printing — печатание формуляров с пропусками отдельных пунктов на последовательно идущих страницах
24. четырёхкрасочная печатьprinting device — печатающее устройство; устройство печати
printing station — пункт вывода на печать; станция печати
25. печатание в четыре краски26. многокрасочная печать всеми основными краскамиgelatin printing — фототипия, печать с желатиновых печатных форм
27. нанесение клеевого слоя28. гуммированиеheat-set printing — печатание красками, закрепляющимися под действием нагрева
helios printing — гелиопечать, гелиография
hot foil printing — горячее тиснение фольгой, тиснение фольгой с использованием нагретого штампа
29. переводной способ копирования30. печатание через промежуточную поверхность; офсетная печать31. ведомственная печать32. внутрифирменная печатьiridescent printing — радужная печать; печать враскат
level impression printing — печатание с равномерным натиском, печатание с равномерным давлением
33. печатание литографским способом, литография34. офсетная печатьmagnetic ink printing — печатание магнитными красками, магнитографская печать, магнитография
35. картографическая печать, картопечатание36. производство картографической продукции37. копирование изображения на металлическую пластину38. печатание на металле39. акцидентная печать40. печатание акцидентной продукции41. однокрасочная печать42. печатание однокрасочной продукцииprinting pressure — давление печатания, натиск
43. многокрасочная печать44. печатание многокрасочной продукцииmultigraph printing — печатание с ручного набора, закреплённого на цилиндре
45. печатание газетно-журнальной продукции46. газетно-журнальное производство47. печатание газет48. газетное производствоoff-register printing — печатание с несовмещением, печатание с нарушением приводки
offset printing — офсет, офсетная печать
49. распечатка информации, хранящейся в базе данных вычислительной системы по требованию50. печатание по требованию51. печатание персонализированных изданий52. оптическая печать53. проекционное копирование54. печатание на упаковочных материалах55. производство упаковкиpackaging printing and converting — печать и изготовление упаковок; печать и изготовление тары
56. фотография57. фотопечать; копированиеphotographic offset printing — офсетная печать с форм, изготовленных фотомеханическим способом
58. глубокая печать59. печатание с гелиогравюрphotolithooffset printing — офсетная печать с форм, изготовленных фотомеханическим способом
60. печатание с форм, изготовленных фотомеханическим способом61. фотомеханический способ размножения62. печатание с гравированных медных пластин63. печатание вкладных иллюстрацийprocess printing — многокрасочная печать с форм, изготовленных фотомеханическим способом
64. печатание издательской продукции65. заключительная стадия печатанияraised printing — печатание с последующим оплавлением рельефа; рельефная печать
66. рефлексное копирование67. рефлексное печатание68. печатание с выворотных форм69. печатание с реверсивным приводом цилиндров; реверсивное печатание70. печатание на обороте, запечатывание оборотной стороныrotary printing — ротационная печать, печатание на ротационных машинах
71. печатание многокрасочных газет «по сырому»72. цветные краски для печатания газет73. растровая печать74. второй завод, допечаткаprinting mistake — опечатка, типографская ошибка
75. второй прогонselective printing — избирательное печатание, печатание с избирательным воспроизведением знаков
76. малотиражная печать77. малотиражное копированиеside-by-side printing — радужная печать, печать враскат
small offset printing — «малый офсет», печатание малоформатной продукции офсетным способом
solid printing — печатание со сплошных форм, печатание плашек
solid color printing — печатание со сплошных форм цветными красками, печатание цветных плашек
solventless printing — печатание красками, не содержащими растворителя
split color printing — радужная печать, печать враскат
78. трафаретная печать79. ротаторная печатьsublimatic heat transfer printing — термодекалькомания, сублимационная печать
test printing — пробное печатание, изготовление пробных оттисков
thermal printing — термопечать, термографская печать, термография; печатание термокрасками
thermographic printing — термопечать, термографская печать, термография, печатание термокрасками
three-color process printing — трёхкрасочная печать с цветоделённых печатных форм, изготовленных фотомеханическим способом
three-over-one printing — печатание красочностью 3+1
80. печатание на тканях81. печатание на тонкой бумаге82. декалькомания, печатание переводных изображений83. печатание с переносом изображенияtrouble-free printing — бесперебойное печатание, печатание без помех и перебоев
vapor printing — «дымовая» печать, печатание паром
water-based ink printing — печатание водными красками, печатание красками на водной основе
web printing — печатание на рулонном материале, рулонная печать
wood block printing — печатание с деревянного клише; ксилография
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