method type

метод Розенброка

Rosenbrock method

метод типа Рунге-Кутты - method of Runge-Kutta type

метод Рунге-Кутты

Runge-Kutta method

метод типа Рунге-Кутты - method of Runge-Kutta type

Warping

WARPING

General term for processes after winding concerned in preparing weaver's and knitter's warps. Methods of warping vary according to (1) the yarns employed (2) whether they are sized or not, and (3) at what state sizing takes place. There are at least seven methods of warp preparation, e.g., beam warping, direct warping, mill warping on vertical mills, section warping on horizontal mills and in cheeses on section blocks, Scotch dresser sizing, Scotch warp dressing, and Yorkshire warp dressing. Beam Warping is the system in general use for making grey cotton goods. The beam warper comprises a creel for the supply ends, which may be on double-flanged bobbins, cones or cheeses, and a beaming head which comprises mechanism for mounting and rotating a warper's beam and means for winding the yarn from the creel supply on to the beam under suitable tension. The number of ends and length of warp on a back or warper's beam is related to what is required in the weaver's beam. Assuming the weaver's beams were required to have 2928 ends, 24's warp, and 8 cuts of 96 yards each, the back beams for a set might have 2928: 6 = 488 ends, and 2 X 6 X 8 X 96 = 9216 yards. On the slasher sizing machine six back beams would be run together, thereby producing 12 weaver's beams each containing 2928 ends 768 yards long. Warp Beaming Speeds - With the old type of warp beaming machine taking supply from unrolling double-flanged bobbins, the warping speed would be about 70 yards per minute. In modern beam warpers taking supply overend from cones, the warping speed is up to 250 yards per minute. With beam barrels of 4¹/₂-in. dia., and up to 500 yards per minute with barrels of 10-in. dia. Warp and Weft Knitted Fabrics - Warp knitted fabrics in which extra yarn is introduced in the form of weft threads which are laid in between the warp threads and their needles for the purpose of adding extra weight and for patterning purposes. Warp Loom Tapes - Narrow knitted fabrics usually less than one inch wide used for trimming garments. They are knitted on circular latch needle machines, but the tapes are flat. Direct Warping - A method used in making warps for towels, fustians, and other fabrics in which the total number of ends can be accommodated in one creel, say not more than 1,000 ends. The threads are run from the creel direct to the weaver's beam on a machine similar to that used in section beam warping. Mill Warping - There are two distinctly different methods of mill warping. On the vertical mill, which may be anything up to 20 yards in circumference, the number of ends in the complete warp is obtained by repeating the runs the required number of times, e.g., with 200 bobbins in the creel, 4 runs would give a warp of 800 ends. The length of the warp is determined by the number of revolutions made by the mill for each run. The horizontal mill is much used in Yorkshire for making woollen and worsted warps It is used to a small extent for cotton warps and is largely used for making silk and rayon warps. The mill or swift is usually about 5 yards in circumference. Its distinctive feature is the making of warps in sections which are wound on the mill in overlapping manner. The creel capacity varies from 250 to 600 ends, and with 500 ends in the creel a warp of 5,000 ends would require ten sections. Section Warping for Coloured Goods - This is a system of making coloured striped warps from hank-dyed and bleached yarns. The bobbins are creeled to pattern, one or more complete patterns to each section. Each section is the full length of the warp and is run on a small section block keywayed to fit a key on the shaft of the subsequent beaming machine where the sections are placed side by side and run on the weaver's beam. Scotch Dresser Sizing - There are two systems of warp preparation known as Scotch dressing. 1. Dresser sizing used for sizing warps for linen damasks, etc. Back beams are first made and placed in two beam creels, one on each side of the headstock. The threads from several back beams are collected in one sheet of yarn, sized by passage through a size-box, brushed by a revolving brush, dried by hot air, and passed vertically upwards where both sheets of warp threads are united and pass on to the weaver's beam in a single sheet. Scotch Warp Dressing - The other method of Scotch dressing is used in the preparation of coloured striped warps, usually from warp-dyed and bleached yarn. It consists in splitting off from ball warps previously dyed or bleached and sized, the number of ends of each colour required in the finished warp. Each group is then wound on separate flanged warpers' beams. These beams are placed in a creel and the ends drawn through a reed according to pattern, and wound finally on to the weavers' beams. Yorkshire Warp Dressing - This is a system used mostly in the preparation of coloured striped warps. It is also invaluable in preparing warps dyed and sized in warp form to prevent shadiness in the cloth. Four warps with the same number of ends in each are dyed the same colour, and in sleying, one end from each warp is put in each dent of the reed. Any tendency to shadiness arising from irregularity in dyeing is thereby effectively eliminated. In striped work the required ends are split off if necessary from a larger ball warp, sleyed to pattern in the reed, and then run under controlled tension on to the weaver's beam. The dresser uses a brush as long as the width of the warp to brush out entangled places where the threads have adhered together with size. Yorkshire dressing provides perfect warps with every thread in its proper place on the weaver's beam, no crossed or missing threads, and a minimum of knots.

используемый

. мало использоваться; наиболее широко используемый

•

Another type of indicator in use (or used) is the diffusion type.

•

A single laser beam has many thousands of times the signal-carrying capacity of any other transmission medium in service.

•

The major design method employed is based on this principle.

Zweifingersuchsystem

Zwei|fin|ger|such|sys|tem [tsvaifɪŋɐ-]

nt (hum)

peer (Brit) or hunt (US) and peck method (hum)

ich tippe im Zweifingersúchsystem — I use two fingers, I type with two fingers

* * *

Zweifingersystem (Zweifingersuchsystem) n hum hunt and peck system;

ich tippe im Zweifinger(such)system I type with ( oder use) two fingers

Verpackungsabteilung

Verpackungsabteilung
packing (packaging) department;
• Verpackungsanweisungen packaging instructions;
• Verpackungsart type of packing, package;
• Verpackungsbeilage package insert (US);
• Verpackungsbestimmungen packaging (packing) regulations;
• Verpackungsbetrieb packing plant;
• auf Exportversand spezialisierter Verpackungsbetrieb export packer;
• Verpackungsdatum date of packing;
• Verpackungsdienst contract packaging;
• Verpackungserfordernisse packaging requirements;
• Verpackungsfachmann packaging engineer (US);
• Verpackungsfehler insufficient packing;
• Verpackungsfolie packaging film;
• Verpackungsgewicht tare, dead weight;
• reines Verpackungsgewicht actual (real) tare;
• Verpackungsgewicht bestimmen to ascertain (allow for, state) the tare;
• Verpackungsindustrie packaging industry;
• Verpackungskosten packing charges, cost of packing, packaging costs;
• Verpackungskosten abziehen to allow for the tare;
• Verpackungsleinwand bale cloth;
• Verpackungsmaschine parcel(l)ing machine;
• Verpackungsmaterial packaging (US) (wrapping) material, packaging, packing [material], boxing, bagging;
• Verpackungsmuster package design;
• Verpackungsnormen package-size standards;
• Verpackungspflicht obligation to provide packing;
• Verpackungsraum packing (wrapping, shipping, US) room, packery;
• Verpackungsrichtlinien packaging classifications;
• Verpackungsschutz protection of labels;
• Verpackungssektor packaging sector;
• Verpackungsspezialist packaging consultant;
• Verpackungssystem method of packing;
• Verpackungstechnik packaging engineering (US);
• Verpackungstest package test;
• Verpackungsvorschriften packaging instructions;
• Verpackungsweise type of packing;
• Verpackungszettel packing slip;
• schlechter Verpackungszustand bad (poor) packing.

Art

Art f TECH classification (Klasse); design (Machart); grade (Qualität); kind, sort, type (Sorte); method, mode, way (Methode); nature (Wesen, Natur); specific name (Benennung); type (Bauart, Modell)

raisonnement

raisonnement [ʀεzɔnmɑ̃]

masculine noun

   a. ( = activité) reasoning uncount ; ( = façon de réfléchir) way of thinking ; ( = cheminement de la pensée) thought process

• raisonnement économique/politique economic/political thinking

   b. ( = argumentation) argument

• il tient le raisonnement suivant his reasoning is as follows

• si tu tiens ce raisonnement if this is the view you take

• j'ai du mal à suivre son raisonnement I'm having trouble following his argument

* * *

ʀɛzɔnmɑ̃

nom masculin

1) ( suite d'arguments) reasoning [U] ( sur about)

selon le même raisonnement — by the same token

je ne tiens pas le même raisonnement — I look at it differently

avec ce genre de raisonnement — with that sort of thinking

2) ( type de pensée) thinking

raisonnement économique — economic thinking

•

Phrasal Verbs:

- raisonnement par l'absurde

* * *

ʀɛzɔnmɑ̃ nm

1) (= logique, mode de pensée) reasoning

2) (= argumentation) argument, reasoning

J'ai du mal à suivre son raisonnement. — I have difficulty following his reasoning.

* * *

raisonnement nm

1 ( suite d'arguments) reasoning ¢ (sur about); un raisonnement confus/solide confused/sound reasoning; les lacunes de ton raisonnement the gaps in your reasoning; suivre le raisonnement de qn to follow sb's reasoning; tous les raisonnements sous-jacents all the underlying reasoning; faire le même raisonnement pour to apply the same reasoning to; selon le même raisonnement by the same argument; faire le raisonnement que to argue that; il tient le raisonnement suivant his argument is as follows; je ne tiens pas le même raisonnement I have a different way of reasoning; tu ne feras jamais rien avec ce genre de raisonnement you won't get anywhere with that sort of thinking;

2 ( opération de la pensée) reasoning; raisonnement logique/analogique/pratique logical/analogical/practical reasoning; mode/forme /méthode de raisonnement way/form/method of reasoning; fondé sur le raisonnement based on reason;

3 ( type de pensée) thinking; raisonnement économique/politique economic/political thinking.

Composé

raisonnement par l'absurde reductio ad absurdum.

[rɛzɔnmɑ̃] nom masculin

1. [faculté, réflexion]

le raisonnement reasoning

raisonnement par l'absurde reductio ad absurdum

raisonnement par analogie analogical reasoning

raisonnement déductif/inductif deductive/inductive reasoning

2. [argumentation] reasoning

la conclusion de mon raisonnement est la suivante after careful thought, I have come to the following conclusion

je ne suis pas bien votre raisonnement I don't follow your line of argument ou thought

son raisonnement est assez convaincant her arguments are quite convincing

il ne faudra pas tenir ce raisonnement avec lui we mustn't use that argument with him

используемый

. мало использоваться; наиболее широко используемый

•

Another type of indicator in use (or used) is the diffusion type.

•

A single laser beam has many thousands of times the signal-carrying capacity of any other transmission medium in service.

•

The major design method employed is based on this principle.

* * *

— в значении, используемом

— используемый в настоящее время

— используемый для борьбы с

— используемый... представлял собой

— используемый при

— наиболее широко используемый

— обычно используемый

Betriebsart

Betriebsart f 1. ET, NRT (operating) mode, method [mode] of operation; 2. MA type of duty, duty type (IEC 50-411-21-13); 3. AP duty classification; 4. RT step setting mode

Gesamtkostenverfahren

Gesamtkostenverfahren n RW, STEUER expenditure style of presentation, expenditure format, type of expenditure format, total cost format, presentation by nature (IFRS/IAS; § 275 Abs. 2 HGB; Gegensatz: Umsatzkostenverfahren = cost-of-sales method = cost of sales type of presentation)

именованная константа

1. figurative constant

константа скорости суммарной реакции — overall rate constant

константа равновесия реакции — reaction equilibrium constant

оператор определения константы — define constant statement

метод выравнивания констант — method of fitting constants

константа типа C; символьная константа — C-type constant

2. manifest constant

константа с фиксированной точкой — fixed-point constant

константа с плавающей запятой — floating-point constant

константа с плавающей точкой — floating-point constant

базисная вещественная константа — basic real constant

эбуллиоскопическая константа — ebulliscopic constant

3. named constant

режим микрокалькулятора с константой — constant mode

распакованная десятичная константа — Z-type constant

константа скорости реакции — reaction rate constant

константа распространения — propagation constant

константа затухания во временив — decay constant

распакованная десятичная константа

Z-type constant

константа скорости суммарной реакции — overall rate constant

константа равновесия реакции — reaction equilibrium constant

оператор определения константы — define constant statement

метод выравнивания констант — method of fitting constants

константа типа C; символьная константа — C-type constant

шестнадцатеричная константа

X-type constant

константа скорости суммарной реакции — overall rate constant

константа равновесия реакции — reaction equilibrium constant

оператор определения константы — define constant statement

метод выравнивания констант — method of fitting constants

константа типа C; символьная константа — C-type constant

Chevenard, Pierre Antoine Jean Sylvestre

SUBJECT AREA: Metallurgy

[br]

b. 31 December 1888 Thizy, Rhône, France

d. 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 Distinctions

President, Société de Physique. Commandeur de la Légion d'honneur.

Bibliography

1929, 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.

ASD

Curr, John

SUBJECT AREA: Land transport, Mining and extraction technology, Railways and locomotives

[br]

b. 1756 Kyo, near Lanchester, or in Greenside, near Ryton-on-Tyne, Durham, England

d. 27 January 1823 Sheffield, England

[br]

English coal-mine manager and engineer, inventor of flanged, cast-iron plate rails.

[br]

The son of a "coal viewer", Curr was brought up in the West Durham colliery district. In 1777 he went to the Duke of Norfolk's collieries at Sheffield, where in 1880 he was appointed Superintendent. There coal was conveyed underground in baskets on sledges: Curr replaced the wicker sledges with wheeled corves, i.e. small four-wheeled wooden wagons, running on "rail-roads" with cast-iron rails and hauled from the coal-face to the shaft bottom by horses. The rails employed hitherto had usually consisted of plates of iron, the flange being on the wheels of the wagon. Curr's new design involved flanges on the rails which guided the vehicles, the wheels of which were unflanged and could run on any hard surface. He appears to have left no precise record of the date that he did this, and surviving records have been interpreted as implying various dates between 1776 and 1787. In 1787 John Buddle paid tribute to the efficiency of the rails of Curr's type, which were first used for surface transport by Joseph Butler in 1788 at his iron furnace at Wingerworth near Chesterfield: their use was then promoted widely by Benjamin Outram, and they were adopted in many other English mines. They proved serviceable until the advent of locomotives demanded different rails.

In 1788 Curr also developed a system for drawing a full corve up a mine shaft while lowering an empty one, with guides to separate them. At the surface the corves were automatically emptied by tipplers. Four years later he was awarded a patent for using double ropes for lifting heavier loads. As the weight of the rope itself became a considerable problem with the increasing depth of the shafts, Curr invented the flat hemp rope, patented in 1798, which consisted of several small round ropes stitched together and lapped upon itself in winding. It acted as a counterbalance and led to a reduction in the time and cost of hoisting: at the beginning of a run the loaded rope began to coil upon a small diameter, gradually increasing, while the unloaded rope began to coil off a large diameter, gradually decreasing.

Curr's book The Coal Viewer (1797) is the earliest-known engineering work on railway track and it also contains the most elaborate description of a Newcomen pumping engine, at the highest state of its development. He became an acknowledged expert on construction of Newcomen-type atmospheric engines, and in 1792 he established a foundry to make parts for railways and engines.

Because of the poor financial results of the Duke of Norfolk's collieries at the end of the century, Curr was dismissed in 1801 despite numerous inventions and improvements which he had introduced. After his dismissal, six more of his patents were concerned with rope-making: the one he gained in 1813 referred to the application of flat ropes to horse-gins and perpendicular drum-shafts of steam engines. Curr also introduced the use of inclined planes, where a descending train of full corves pulled up an empty one, and he was one of the pioneers employing fixed steam engines for hauling. He may have resided in France for some time before his death.

[br]

Bibliography

1788. British patent no. 1,660 (guides in mine shafts).

1789. An Account of tin Improved Method of Drawing Coals and Extracting Ores, etc., from Mines, Newcastle upon Tyne.

1797. The Coal Viewer and Engine Builder's Practical Companion; reprinted with five plates and an introduction by Charles E.Lee, 1970, London: Frank Cass, and New York: Augustus M.Kelley.

1798. British patent no. 2,270 (flat hemp ropes).

Further Reading

F.Bland, 1930–1, "John Curr, originator of iron tram roads", Transactions of the Newcomen Society 11:121–30.

R.A.Mott, 1969, Tramroads of the eighteenth century and their originator: John Curr', Transactions of the Newcomen Society 42:1–23 (includes corrections to Fred Bland's earlier paper).

Charles E.Lee, 1970, introduction to John Curr, The Coal Viewer and Engine Builder's Practical Companion, London: Frank Cass, pp. 1–4; orig. pub. 1797, Sheffield (contains the most comprehensive biographical information).

R.Galloway, 1898, Annals of Coalmining, Vol. I, London; reprinted 1971, London (provides a detailed account of Curr's technological alterations).

WK / PJGR

Jacquard, Joseph-Marie

SUBJECT AREA: Textiles

[br]

b. 7 July 1752 Lyons, France

d. 7 August 1834 Oullines, France

[br]

French developer of the apparatus named after him and used for selecting complicated patterns in weaving.

[br]

Jacquard was apprenticed at the age of 12 to bookbinding, and later to type-founding and cutlery. His parents, who had some connection with weaving, left him a small property upon their death. He made some experiments with pattern weaving, but lost all his inheritance; after marrying, he returned to type-founding and cutlery. In 1790 he formed the idea for his machine, but it was forgotten amidst the excitement of the French Revolution, in which he fought for the Revolutionists at the defence of Lyons. The machine he completed in 1801 combined earlier inventions and was for weaving net. He was sent to Paris to demonstrate it at the National Exposition and received a bronze medal. In 1804 Napoleon granted him a patent, a pension of 1,500 francs and a premium on each machine sold. This enabled him to study and work at the Conservatoire des Arts et Métiers to perfect his mechanism for pattern weaving. A method of selecting any combination of leashes at each shoot of the weft had to be developed, and Jacquard's mechanism was the outcome of various previous inventions. By taking the cards invented by Falcon in 1728 that were punched with holes like the paper of Bouchon in 1725, to select the needles for each pick, and by placing the apparatus above the loom where Vaucanson had put his mechanism, Jacquard combined the best features of earlier inventions. He was not entirely successful because his invention failed in the way it pressed the card against the needles; later modifications by Breton in 1815 and Skola in 1819 were needed before it functioned reliably. However, the advantage of Jacquard's machine was that each pick could be selected much more quickly than on the earlier draw looms, which meant that John Kay's flying shuttle could be introduced on fine pattern looms because the weaver no longer had to wait for the drawboy to sort out the leashes for the next pick. Robert Kay's drop box could also be used with different coloured wefts. The drawboy could be dispensed with because the foot-pedal operating the Jacquard mechanism could be worked by the weaver. Patterns could be changed quickly by replacing one set of cards with another, but the scope of the pattern was more limited than with the draw loom. Some machines that were brought into use aroused bitter hostility. Jacquard suffered physical violence, barely escaping with his life, and his machines were burnt by weavers at Lyons. However, by 1812 his mechanism began to be generally accepted and had been applied to 11,000 draw-looms in France. In 1819 Jacquard received a gold medal and a Cross of Honour for his invention. His machines reached England c.1816 and still remain the basic way of weaving complicated patterns.

[br]

Principal Honours and Distinctions

French Cross of Honour 1819. National Exposition Bronze Medal 1801.

Further Reading

A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London.

C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press.

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (covers the introduction of pattern weaving and the power loom).

RLH

Abrechnungsart

f

1. accounting approach

2. billing category

3. charging method

4. payroll type

5. settlement type

достигать

•

At room temperature the electron's average diffusion distance for the p-n junction after injection may be as much as several microns.

•

This type of potential ranges up to about 100 millivolts.

•

The cadmium content of zinc concentrates may run to 1-2 percent.

•

The amount of mercury here may run as high as two parts per billion.

•

The permeability of iron may be as great as 2000.

•

After the orbit has attained its desired altitude...

•

This amounts up to one third of the velocity of light.

•

The output reaches its peak.

•

The number of formulations ( составов) runs (or ranges) into the thousands.

•

In metazoans, this may amount to as much as 11% of the deoxycytidines.

•

The pressure can be raised to get to point 3.

•

When equilibrium is attained (or established),...

II

. многого можно достигнуть; осуществлять

•

Almost complete conversion can be obtained at ordinary pressure.

•

Maximum efficiency is accomplished when...

•

No improvement was brought about (or attained, or achieved) by applying this method.

•

A reduction in metal thickness can be realized.

•

This realignment of the molecules can be brought about in several ways.

III

. вне пределов досягаемости

•

These bodies of magma do not make it to the surface and solidify at depth...

•

Almost all the heat generated in the earth's mantle finds its way to the ocean floor.

заменять

. вытеснять; может служить заменой; помещать вместо него

•

If the lamp can be changed for another source,...

•

Better agreement is obtained if the constant of Eq. () is changed from 3/7 to 0.425.

•

Worn parts should be renewed.

•

The sleeve bearings were replaced by (or with) ball bearings.

•

An atom which substitutes for a regular atom of the material...

•

When small-diameter cylinders have to be welded, an alternative round type arm can be substituted for the normal pattern.

•

Power's method substitutes ²⁴Na for the dye.

•

The worm drive has almost completely superseded other forms of gearing.

•

During the past thirty-five years positive displacement rotary pumps have to some extent supplanted reciprocating pumps for pumping viscous liquids.

•

This unit takes the place of bulky tuning elements.

•

When automatics take over from manual machines...