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101 line
1. n иск. линия; линии, контур2. n черта, штрихline style — тип линии; тип штриха литеры
draw a line — подвести черту; положить предел
3. n муз. линейка4. n черта, особенность, штрих5. n верёвка, бечёвка6. n проводline communication, line transmission — проводная связь; передача сообщений по проводам
7. n лесаto be clever with rod and line, to throw a good line — быть хорошим рыболовом
fishing line — леса, леска
8. n мор. линь9. n поэт. нитьrubber band line — отрезок типа "резиновая нить"
10. n граница, пограничная линия; предел11. n морщина, складкаface covered with deep lines — лицо, изборождённое глубокими морщинами
12. n линия ладони13. n l14. n контур, очертания; обводыwave line — линия волн; волнообразный обвод
15. n план, теоретический чертёжline plan — контурный план; ситуационный план
16. n ряд, линияsingle-wire line — однопроводная линия; несимметричная линия
17. n строй, ряд18. n воен. развёрнутый строй19. n мор. строй фронтаto go up the line — идти, уходить на фронт
20. n очередь, хвост21. n тех. конвейер, поточная линия22. n тех. трубопровод23. n тех. линия связиparty line — спаренные телефоны; общий провод у нескольких абонентов
24. n тех. линия сообщения25. n тех. линия электросетиline bar — контактный рельс; собирательная шина
in line — входящая линия; входная шина
26. n тех. ж. -д. рельсовый путь27. n тех. экватор28. n тех. редк. меридиан или параллель29. n тех. направление; курс, путьline of march — маршрут, путь следования
party line — политический курс; линия партии
30. n тех. направление, ходline of argument — последовательность доводов; ход доказательства
31. n тех. образ действий; линия поведения32. n тех. полит. линия; курс33. n тех. происхождение, родословная, линия; генеалогия, семья34. n тех. очерёдность; перспектива35. n тех. с. -х. генеалогическая линия36. n тех. короткая запискаjust a line to say that all goes well — несколько слов, чтобы только сказать, что всё благополучно
37. n тех. стих, строчка стиха38. n тех. стихи, стихотворение39. n тех. школ. «строчки», дополнительное задание40. n тех. театр. роль, слова роли41. n тех. разг. свидетельство о браке42. n тех. медицинское свидетельство43. n тех. род занятий, род деятельности; специальность; область интересовin line of duty — при исполнении служебных обязанностей; на посту
line of profession — профессия; специальность
44. n тех. ком. ассортимент; партия товаров; серия изделийline cologne — одеколон, входящий в парфюмерную серию
45. n тех. судьба46. n воен. линия фронта; оборонительный рубежlp/mm line pairs per millimetre — количество пар линий на мм
47. n воен. укреплённая линия48. n воен. сведения, информация49. n воен. нападающие50. n воен. пехотные части51. n воен. амер. строевые войска52. n воен. тлв. строкаin line with — в согласии, в соответствии с
to act out of line — грубить; скандалить; вести себя вызывающе
by line and level, by rule and line — очень точно; аккуратно, методично
all along the line — во всём, во всех отношениях
to draw a line — подвести черту, положить предел ;
line advance — перевод строки; переход на следующую строку
continuation line — строка продолжения; строка-продолжение
line overset — излишек букв в строке, переполнение строки
53. v проводить линии; линоватьcolumn line — линия столбца; линия графы; вертикальная шина
54. v строить, выстраивать в ряд, в линию; устанавливать в ряд55. v стоять, тянуться вдольline wells — скважины, расположенные вдоль границ участка
56. v тех. центрировать, выравнивать, правильно устанавливать57. v редк. завязывать, обвязывать бечёвкой, проволокой58. v амер. редк. удить59. v класть на подкладку, подбивать60. v служить подкладкой61. v обивать, обшивать изнутри; выстилать62. v покрывать; служить обивкойtapestries lined the walls — гобелены покрывали все стены; стены были обиты гобеленами
63. v тех. обкладывать, облицовывать64. v тех. прокладывать65. v метал. футеровать66. v разг. наполнять, набиватьСинонимический ряд:1. border (noun) border; edge; margin2. cord (noun) cord; rope; twine; wire3. course (noun) approach; attack; course; method; passage; path; plan; policy; polity; procedure; program; road; route; tack; technique; way4. dash (noun) band; dash; streak; stripe; stroke5. family (noun) ancestry; birth; blood; bloodline; descent; extraction; family; genealogy; lineage; origin; parentage; pedigree; relative; seed6. furrow (noun) crease; crinkle; furrow; wrinkle7. lie (noun) lie; story8. merchandise (noun) commodities; goods; merchandise; produce; stock; vendibles; wares9. occupation (noun) business; calling; discipline; employment; job; occupation; pursuit; racket; trade; vocation; work10. outline (noun) contour; delineation; figuration; lineament; lineation; outline; profile; silhouette11. programme (noun) policy; procedure; programme12. row (noun) column; echelon; file; queue; rank; row; sequence; string; tier13. adjoin (verb) abut; adjoin; border; butt against; butt on; communicate; join; march; neighbor; touch; verge14. line up (verb) align; allineate; arrange; line up; marshal; order; range15. outline (verb) outline; rule; trace16. pad (verb) embroider; face; pad; panel; paper; quiltАнтонимический ряд:contents; deviation; disarrange; discontinuance; interruption; solution; space; strip; variation -
102 manufacture
1. n производство, изготовление; обработка; процесс изготовления2. n чаще изделие, продукт, фабрикат3. n механическое изготовление, фабрикация4. n фабрикация5. v производить, изготовлять; выделывать; перерабатывать6. v делать по шаблону, трафарету, штамповать7. v фабриковать, изобретатьСинонимический ряд:1. concoct (verb) concoct; fabricate; invent2. make (verb) assemble; build; compose; construct; erect; fashion; forge; form; frame; make; mold; mould; produce; put together; set up; shapeАнтонимический ряд: -
103 plan
1. n план, программа действийfive-year plan — пятилетний план, пятилетка
2. n проектa building erected after the plans of an eminent architect — здание, воздвигнутое по проекту известного архитектора
3. n чертёж; схема; диаграмма4. n горизонтальная проекция5. n крупномасштабная карта, план6. n замысел, план, намерение7. n способ действийthe best plan would be … — самое лучшее будет …
game plan — запланированный ряд действий; стратегия
8. n цель, задача9. n церк. расписание служб на кварталuni-service plan — план, составленный одной службой
10. v составлять план, планировать11. v строить планы; намереваться, затеватьto plan for the future — строить планы на будущее; думать о будущем
12. v распланировать; запланироватьplan on — планировать; план
Синонимический ряд:1. course (noun) approach; attack; course; line; procedure; tack; technique2. drawing (noun) chart; diagram; draft; drawing; map; outline; representation; sketch3. end (noun) aim; ambition; animus; end; goal; intendment; intent; intention; meaning; objective; point; purpose; target; view4. order (noun) method; order; orderliness; pattern; system5. scheme (noun) blueprint; conception; contrivance; design; formula; game plan; idea; layout; premeditation; project; schema; scheme; strategy6. chart (verb) chart; organize; outline; prepare7. design (verb) arrange; blueprint; cast; concoct; contrive; delineate; design; devise; draw up; frame; illustrate; lay out; map; map out; plot; project; set out8. mean (verb) aim; contemplate; intend; mean; project; propose; purpose -
104 direct printing
English-Russian big polytechnic dictionary > direct printing
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105 irregular interval printing
printing together — печатание «со своим оборотом»
English-Russian big polytechnic dictionary > irregular interval printing
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106 photographic printing
English-Russian big polytechnic dictionary > photographic printing
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107 projection printing
1. проекционная печать2. проекционное копированиеEnglish-Russian big polytechnic dictionary > projection printing
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108 reverse line printing
English-Russian big polytechnic dictionary > reverse line printing
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109 копирование
1. с. copying2. с. маш. contour machining, profiling3. с. кфт. printingлампа для копирования, копировальная лампа — printing lamp
4. с. полигр. printing-down; duplicationСинонимический ряд:подражание (сущ.) имитацию; имитация; имитирование; обезьянничание; подражание -
110 полный
1. absoluteполный, неограниченный контроль — absolute control
2. detailed3. integral4. thorough5. chubby6. overallполное усиление; общий коэффициент усиления — overall gain
7. comprehensive8. implicit9. thorongh10. exhaustive11. floor-to-floor12. full-length13. plenarily14. plenaryполное, безоговорочное признание — plenary confession
15. plug-to-plug16. portly17. seamless18. stoutона была полная, но не тучная — she was stout, not obese
19. full; to the brim; all right; never mind20. full; complete; absolute; perfect; stout; chubby21. complete22. flush23. plump24. rich25. total26. utterв полном запустении; всеми покинутый — in utter desertion
Синонимический ряд:1. глубокая (прил.) абсолютная; глубокая; гробовая; мертвая; могильная; невозмутимая; ненарушимая; нерушимая; совершенная2. исчерпывающая (прил.) всесторонний; исчерпывающая3. неограниченная (прил.) абсолютная; безраздельная; не имеющий границ; не имеющий ограничений; неограниченная; ничем не ограниченный4. полнотелая (прил.) гладкая; дородная; полнотелая; пухлая; пышная; сдобная; упитанная5. толстая (прил.) жирная; толстая6. цельная (прил.) вся; круглая; целая; цельнаяАнтонимический ряд:порожняя; пустая; худая -
111 Cutwork
A net of threads was laid on to cloth, the cloth sewn to it in parts, and the other parts cut away; or by another method, the threads were arranged on a frame, all radiating from a common centre, and then worked into patterns. This was the old convent lace of Italy, called " Greek Lace." Open-work embroidery came into general use in England in the 16th century. It is mentioned as "cut worke " in Richard II's time. -
112 Dressed Yarn
A method of preparing warps for weaving as in the Yorkshire dressing frame, whereby all threads are intact and occupy their correct position on the weaver's beam. Dressed warps are very common in the coloured trade (see Yorkshire Dressing) -
113 Reticella
The first-known needle-made lace and was produced in all lace-making countries under different names. It was made in several ways; the first consisted in arranging a network of threads on a small frame, crossing and interlacing them in various complicated patterns. Beneath this network was gummed a piece of fine cloth, open like canvas, called Quintain. Then with a needle the network was sewn to the quintain by edging round those parts of the pattern which were to remain thick, and cutting away the superfluous cloth; hence the name of cutwork in England. A simpler method was to make the pattern detached without any linen base, the threads radiating at equal distances from one common centre, served as a framework to others which were united to them in geometric forms. Also known as Greek lace. -
114 ἁρμονία
A means of joining, fastening,γόμφοις μιν.. καὶ ἁρμονίῃσιν ἄρηρεν Od.5.248
; of a ship, ὄφρ' ἂν.. ἐν ἁρμονίῃσιν ἀρήρῃ ib. 361.2 joint, as between a ship's planks, τὰς ἁ. ἐν ὦν ἐπάκτωσαν τῇ βύβλῳ caulked the joints with papyrus, Hdt.2.96;τῶν ἁρμονιῶν διαχασκουσῶν Ar.Eq. 533
; also in masonry,αἱ τῶν λίθων ἁ. D.S.2.8
, cf. Paus.8.8.8,9.33.7.3 in Anatomy, suture, Hp. Off.25, Oss.12; union of two bones by mere apposition, Gal.2.737; also in pl., adjustments, .4 framework,ῥηγνὺς ἁρμονίαν.. λύρας S.Fr. 244
;βοός Philostr.Im.1.16
; esp. of the human frame,ἁρμονίην ἀναλυέμεν ἀνθρώποιο Ps.-Phoc.102
;νεύρων καὶ κώλων ἔκλυτος ἁ. AP7.383
(Phil.);τὰς ἁ. διαχαλᾷ τοῦ σώματος Epicr.2.19
.b of the mind, δύστροπος γυναικῶν ἁ. women's perverse temperament, E.Hipp. 162 (lyr.).II covenant, agreement, in pl.,μάρτυροι.. καὶ ἐπίσκοποι ἁρμονιάων Il.22.255
.IV in Music, stringing,ἁ. τόξου καὶ λύρας Heraclit.51
, cf. Pl.Smp. 187a: hence, method of stringing, musical scale, Philol.6, etc., Nicom.Harm.9; esp. octave,ἐκ πασῶν ὀκτὼ οὐσῶν [φωνῶν] μίαν ἁ. συμφωνεῖν Pl.R. 617b
;ἑπτὰ χορδαὶ ἡ ἁ. Arist. Metaph. 1093a14
, cf. Pr. 919b21; of the planetary spheres, in Pythag. theory, Cael.290b13, Mu.399a12, etc.2 generally, music,αὐτῷ δὲ τῷ ῥυθμῷ μιμοῦνται χωρὶς ἁ. Id.Po.1447a26
.3 special type of scale, mode,ἁ. Λυδία Pi.N.4.46
; Αἰολίς or - ηΐς Pratin.Lyr.5, Lasus I, cf. Pl.R. 398e, al., Arist.Pol. 1276b8, 1341b35, etc.b esp. the enharmonic scale, Aristox.Harm.p.I M., Plu.2.1135a, al.4 ἁρμονίαν λόγων λαβών a due arrangement of words, fit to be set to music, Pl.Tht. 175e.6 metaph. of persons and things, harmony, concord, Pl.R. 431e, etc.V personified, as a mythical figure, h.Ap. 195, Hes.Th. 937, etc.; Philos., like φιλότης, principle of Union, opp. Νεῖκος, Emp.122.2, cf. 27.3.VI Pythag. name for three, Theol. Ar.16.Greek-English dictionary (Αγγλικά Ελληνικά-λεξικό) > ἁρμονία
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115 Cai Lun (Tsai Lun)
SUBJECT AREA: Paper and printing[br]b. c.57 AD Chinad. c.121 AD China[br]Chinese Director of Imperial Workshops who is usually credited with the invention of paper.[br]He was a confidential secretary to the Emperor. He became Director of the Imperial Workshops and he is said to have invented, or sponsored the invention of, paper around the year 105 AD. Recent studies, however, suggest that paper was already known in China two centuries earlier. The method of making it has hardly varied in principle since that time. The raw materials, then usually old fishing nets and clothing rags, were boiled with water, to which alkali in the form of wood ash was sometimes added. The resulting pulp was then beaten in a stone mortar with a stone or a wooden mallet. The pulp was then mixed and stirred with a large amount of water, and a sieve or mould (formed on a wooden frame carrying a mat of thin reeds sewn together) was dipped into it and was shaken to help the fibres in the layer of pulp to interlock and thus form a sheet of paper. The rest of the process consisted, then as now, of getting rid of the water: the sheets of paper were dried and bleached by leaving them to lie in the sun.Some of China's many inventions were achieved independently in Western Europe, but it seems that Europe's knowledge of papermaking stems from the Chinese. It was not until the eighth century that it passed into the Islamic world and so, first by contact with the Moors in Spain in the twelfth century, into Western Europe.Cai Lun was later made a marquis. Further promotion followed when he was regarded as the god of papermaking.[br]Further ReadingJ.Needham, 1985, Science and Civilisation in China, Cambridge: Cambridge University Press, Vol. V (1): Clerks and Craftsmen in China and the West, 1970.LRD -
116 Charpy, Augustin Georges Albert
SUBJECT AREA: Metallurgy[br]b. 1 September 1865 Ouillins, Rhône, Franced. 25 November 1945 Paris, France[br]French metallurgist, originator of the Charpy pendulum impact method of testing metals.[br]After graduating in chemistry from the Ecole Polytechnique in 1887, Charpy continued to work there on the physical chemistry of solutions for his doctorate. He joined the Laboratoire d'Artillerie de la Marine in 1892 and began to study the structure and mechanical properties of various steels in relation to their previous heat treatment. His first memoir, on the mechanical properties of steels quenched from various temperatures, was published in 1892 on the advice of Henri Le Chatelier. He joined the Compagnie de Chatillon Commentry Fourchamboult et Decazeville at their steelworks in Imphy in 1898, shortly after the discovery of Invar by G.E. Guillaume. Most of the alloys required for this investigation had been prepared at Imphy, and their laboratories were therefore well equipped with sensitive and refined dilatometric facilities. Charpy and his colleague L.Grenet utilized this technique in many of their earlier investigations, which were largely concerned with the transformation points of steel. He began to study the magnetic characteristics of silicon steels in 1902, shortly after their use as transformer laminations had first been proposed by Hadfield and his colleagues in 1900. Charpy was the first to show that the magnetic hysteresis of these alloys decreased rapidly as their grain size increased.The first details of Charpy's pendulum impact testing machine were published in 1901, about two years before Izod read his paper to the British Association. As with Izod's machine, the energy of fracture was measured by the retardation of the pendulum. Charpy's test pieces, however, unlike those of Izod, were in the form of centrally notched beams, freely supported at each end against rigid anvils. This arrangement, it was believed, transmitted less energy to the frame of the machine and allowed the energy of fracture to be more accurately measured. In practice, however, the blow of the pendulum in the Charpy test caused visible distortion in the specimen as a whole. Both tests were still widely used in the 1990s.In 1920 Charpy left Imphy to become Director-General of the Compagnie des Aciéries de la Marine et Homecourt. After his election to the Académie des Sciences in 1918, he came to be associated with Floris Osmond and Henri Le Chatelier as one of the founders of the "French School of Physical Metallurgy". Around the turn of the century he had contributed much to the development of the metallurgical microscope and had helped to introduce the Chatelier thermocouple into the laboratory and to industry. He also popularized the use of platinum-wound resistance furnaces for laboratory purposes. After 1920 his industrial responsibilities increased greatly, although he continued to devote much of his time to teaching at the Ecole Supérieure des Mines in Paris, and at the Ecole Polytechnique. His first book, Leçons de Chimie (1892, Paris), was written at the beginning of his career, in association with H.Gautier. His last, Notions élémentaires de sidérurgie (1946, Paris), with P.Pingault as co-author, was published posthumously.[br]BibliographyCharpy published important metallurgical papers in Comptes rendus… Académie des Sciences, Paris.Further ReadingR.Barthélémy, 1947, "Notice sur la vie et l'oeuvre de Georges Charpy", Notices et discours, Académie des Sciences, Paris (June).M.Caullery, 1945, "Annonce du décès de M.G. Charpy" Comptes rendus Académie des Sciences, Paris 221:677.P.G.Bastien, 1963, "Microscopic metallurgy in France prior to 1920", Sorby Centennial Symposium on the History of Metallurgy, AIME Metallurgical Society Conference Vol.27, pp. 171–88.ASDBiographical history of technology > Charpy, Augustin Georges Albert
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117 Evans, Oliver
SUBJECT AREA: Agricultural and food technology[br]b. 13 September 1755 Newport, Delaware, USAd. 15 April 1819 New York, USA[br]American millwright and inventor of the first automatic corn mill.[br]He was the fifth child of Charles and Ann Stalcrop Evans, and by the age of 15 he had four sisters and seven brothers. Nothing is known of his schooling, but at the age of 17 he was apprenticed to a Newport wheelwright and wagon-maker. At 19 he was enrolled in a Delaware Militia Company in the Revolutionary War but did not see active service. About this time he invented a machine for bending and cutting off the wires in textile carding combs. In July 1782, with his younger brother, Joseph, he moved to Tuckahoe on the eastern shore of the Delaware River, where he had the basic idea of the automatic flour mill. In July 1782, with his elder brothers John and Theophilus, he bought part of his father's Newport farm, on Red Clay Creek, and planned to build a mill there. In 1793 he married Sarah Tomlinson, daughter of a Delaware farmer, and joined his brothers at Red Clay Creek. He worked there for some seven years on his automatic mill, from about 1783 to 1790.His system for the automatic flour mill consisted of bucket elevators to raise the grain, a horizontal screw conveyor, other conveying devices and a "hopper boy" to cool and dry the meal before gathering it into a hopper feeding the bolting cylinder. Together these components formed the automatic process, from incoming wheat to outgoing flour packed in barrels. At that time the idea of such automation had not been applied to any manufacturing process in America. The mill opened, on a non-automatic cycle, in 1785. In January 1786 Evans applied to the Delaware legislature for a twenty-five-year patent, which was granted on 30 January 1787 although there was much opposition from the Quaker millers of Wilmington and elsewhere. He also applied for patents in Pennsylvania, Maryland and New Hampshire. In May 1789 he went to see the mill of the four Ellicot brothers, near Baltimore, where he was impressed by the design of a horizontal screw conveyor by Jonathan Ellicot and exchanged the rights to his own elevator for those of this machine. After six years' work on his automatic mill, it was completed in 1790. In the autumn of that year a miller in Brandywine ordered a set of Evans's machinery, which set the trend toward its general adoption. A model of it was shown in the Market Street shop window of Robert Leslie, a watch-and clockmaker in Philadelphia, who also took it to England but was unsuccessful in selling the idea there.In 1790 the Federal Plant Laws were passed; Evans's patent was the third to come within the new legislation. A detailed description with a plate was published in a Philadelphia newspaper in January 1791, the first of a proposed series, but the paper closed and the series came to nothing. His brother Joseph went on a series of sales trips, with the result that some machinery of Evans's design was adopted. By 1792 over one hundred mills had been equipped with Evans's machinery, the millers paying a royalty of $40 for each pair of millstones in use. The series of articles that had been cut short formed the basis of Evans's The Young Millwright and Miller's Guide, published first in 1795 after Evans had moved to Philadelphia to set up a store selling milling supplies; it was 440 pages long and ran to fifteen editions between 1795 and 1860.Evans was fairly successful as a merchant. He patented a method of making millstones as well as a means of packing flour in barrels, the latter having a disc pressed down by a toggle-joint arrangement. In 1801 he started to build a steam carriage. He rejected the idea of a steam wheel and of a low-pressure or atmospheric engine. By 1803 his first engine was running at his store, driving a screw-mill working on plaster of Paris for making millstones. The engine had a 6 in. (15 cm) diameter cylinder with a stroke of 18 in. (45 cm) and also drove twelve saws mounted in a frame and cutting marble slabs at a rate of 100 ft (30 m) in twelve hours. He was granted a patent in the spring of 1804. He became involved in a number of lawsuits following the extension of his patent, particularly as he increased the licence fee, sometimes as much as sixfold. The case of Evans v. Samuel Robinson, which Evans won, became famous and was one of these. Patent Right Oppression Exposed, or Knavery Detected, a 200-page book with poems and prose included, was published soon after this case and was probably written by Oliver Evans. The steam engine patent was also extended for a further seven years, but in this case the licence fee was to remain at a fixed level. Evans anticipated Edison in his proposal for an "Experimental Company" or "Mechanical Bureau" with a capital of thirty shares of $100 each. It came to nothing, however, as there were no takers. His first wife, Sarah, died in 1816 and he remarried, to Hetty Ward, the daughter of a New York innkeeper. He was buried in the Bowery, on Lower Manhattan; the church was sold in 1854 and again in 1890, and when no relative claimed his body he was reburied in an unmarked grave in Trinity Cemetery, 57th Street, Broadway.[br]Further ReadingE.S.Ferguson, 1980, Oliver Evans: Inventive Genius of the American Industrial Revolution, Hagley Museum.G.Bathe and D.Bathe, 1935, Oliver Evans: Chronicle of Early American Engineering, Philadelphia, Pa.IMcN -
118 Jenney, William Le Baron
[br]b. 25 September 1832 Fairhaven, Massachusetts, USAd. 15 June 1907 Los Angeles, California, USA[br]American architect and engineer who pioneered a method of steel-framed construction that made the skyscraper possible.[br]Jenney's Home Insurance Building in Chicago was completed in 1885 but demolished in 1931. It was the first building to rise above ten to twelve storeys and was possible because it did not require immensely thick walls on the lower storeys to carry the weight above. Using square-sectioned cast-iron wall piers, hollow cylindrical cast-iron columns on the interior and, across these, steel and cast-iron beams and girders, Jenney produced a load-bearing metal framework independent of the curtain walling. Beams and girders were united by ties as well as being bolted to the vertical members, so providing a strong framework to take the building load. Jenney went on to build in Chicago the Second Leiter Building (1889–91) and, in 1891, the Manhattan Building. He played a considerable part in the planning of the 1893 Chicago World's Fair. Jenney is accepted as having been the founder of the Chicago school of architecture, and he trained many of the later noted architects and builders of the city, such as William Holabird, Martin Roche and Louis Sullivan.[br]Further ReadingA.Woltersdorf, 1924, "The father of the skeleton frame building", Western Architecture 33.F.A.Randall, 1949, History of the Development of Building Construction in Chicago, Urbana: University of Illinois Press.C.Condit, 1964, The Chicago School of Architecture: A History of Commercial and Public Building in the Chicago Area 1875–1925, Chicago: University of Chicago Press.DYBiographical history of technology > Jenney, William Le Baron
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119 метод развертки
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120 метод развертки
Русско-английский словарь по информационным технологиям > метод развертки
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