Methods Development and Quality

Methods Development and Quality

Лаборатория разработки методов и изучения качества

Methods Development and Quality

Экология: Лаборатория разработки методов и изучения качества (Управление охраны окружающей среды США)

MDQAL

Methods Development and Quality

MDQAL

Экология: Methods Development and Quality

method

1) метод; способ; средство

2) система; порядок

3) технология

4) методика

•

to introduce a new method of construction — внедрить новый метод строительства

to employ a new method — использовать новый метод

to propose a new method — предлагать новый метод

to follow a method — следовать методу

- method of applying grease

- method of applying liquid lubrication - method of calculation - method of column analogy - method of comparison - method of connecting - method of determining bending moments by fixed points - method of directions - method of elastic arch - method of elastic weights - method of electric needles - method of exchange of members - method of firing - method of fixed points - method of images - method of initial parameters - method of joints - method of least squares - method of least work - method of limit equilibrium - method of minimum strain energy - method of moments - method of movement - method of operation - method of payment - method of planning - method of production - method of redundant reactions - method of rotations - method of sections - method of separate joint displacement - method of slopes - method of stowage - method of strain measurement method - method of substitute redundant members - method of successive approximations - method of successive corrections - method of training - method of transportation - method of working - method of zero moment points - methods of network planning and control - ad hoc method - advertising method - aero-projection method - air-permeability method - airslide method - approximation method - arbitrary proportions method - area moment method - artificial islands method - ball method of testing - bench method - bidding methods - brush method of treatment timber - building methods - caisson method - cantilever method of design - cassette method of production of thin-slab structures - central mixing method - centre drift method - centrifuge method - centroidal method of design - change-in-stress method - chemical injection method - closed building method - column analogy method of design - compressed-air method of tunnelling - concrete testing method - cone method - construction works quality control method - core-drill method - correlation method - cut-and-cover method - cut-and-try method - cylinder method - deflection method - design methods - development method - dip method - dipping method of treatment timber - effective method - electrolytic method - emulsified-asphalt penetration method - energy method - equal load increments method - equal strain method - error method - fabrication method - fixing method - float and chains method - flow-line conveyer method - force method - graphical method - heading method of tunnelling - hot-air heating standpipe method - hot penetration method - hydraulic fill method - impact method - kinematic method - lacquer film method - land-assembly methods - lift-slab method - limit equilibrium method - limit stage design method - line production method - loading method - magnaflux method - mechanical method by pumps - membrane method of waterproofing - mixed-in-place method - mock-up methods of design - modular ratio method - moire fringe method - moment area method - moment-distribution method - moment-of-inertia method of designing - mud-jack method - mulch method - near end moment distribution method - neutral-points method - non-destructive testing methods - normal method - packing methods - patented method of construction - penetration method - percussive pneumatic method of riveting - photo-elastic method of stress-determination - photo-elasticity method - pilot method - pilot tunnel method - pin-and-string method - pipe-bridge method - plastic method of design - plastic theory method - polarized light method - portal method of design - pounding method of curing concrete - production line method of construction - qualitative methods - quantitative methods - relaxation method - ring-and-ball method - rolled-on method - safe method of heat insulation - safety methods - sampling method - sand-bearing method of testing clay pipes - sand-island method - scheduling method - seismic method of prospecting - simultaneous construction method - slope deflection method - spatial self-fixation erection method - statistical analysis method - stovepipe pipe-laying method - strain-energy method - successive construction method - surface-coating method of waterproofing - synthetic method of restoration - thixotropic liquid method - tilt-up method - top-heading method - transfiguration method - trial-load method - turnover method - ultimate-strength method - ultrasonic pulse velocity method - void method of proportioning - volume method of concrete mix design - volumetric method - water-jet method of pile-driving - weight method - well-point method of excavation - work method - working stress method of design

* * *

метод, способ; система; порядок; методика; технология

- method of analysis
- method of application
- method of attack
- method of bearing and distances
- method of bipolar coordinates
- method of calculation
- method of design
- method of detail survey
- method of elastic weights
- method of electric needles
- method of expansion into series
- method of fixed points
- method of intersection
- method of joint isolation
- method of least work
- methods of manufacture
- method of minimum strain energy
- method of moment distribution
- method of radiation
- method of redistribution of pressure
- method of sections
- method of steam jet
- methods of structural analysis
- method of successive approximations
- methods of testing
- method of water needles
- accepted method of building
- accepted method of house construction
- accurate method of analysis
- adhesive nail-on method
- admittance method
- advanced methods of concreting
- advance slope method
- aggregate exposure method
- air permeability method
- alternate methods
- American method
- analytical method of determining reactions
- API method of pile design
- approximate method
- approximation method
- area method
- area-moment method
- assembly methods
- Austrian method
- autogenous curing method
- balanced cantilever method
- Belgian method
- Benoto method
- bentonite method
- Billner method
- "bin" method
- boiling water method
- boom placement concreting method
- bricklaying methods
- building method
- building block module method
- cable method of rock stressing
- calculation method
- cantilever method
- Chicago method
- circular-arc method
- Coast-Survey method
- collapse method of structural design
- combined finite strip-finite element method
- compaction methods of clays
- conjugate beam method
- consistency measurement method
- construction methods
- construction and erection methods
- contiguous pile method
- continuous-flight augers method
- continuous-sample method of advance
- convergence method
- critical method
- critical path method
- Cross moment distribution method
- Cross method
- cross-section method
- current design methods
- cut-and-cover method
- dampproofing methods
- displacement method
- displacement method of advance
- dual-rail method
- dummy unit-load method
- dust-spot method
- Dutch cone method
- earth pressure balanced tunneling method
- elastic center method
- elastic weights method
- electric analogy method
- electric resisting method
- energy method
- equal friction method of duct sizing
- equal friction method
- equivalent load method
- erection method
- fast track construction methods
- fatigue test method
- finite difference method
- finite element method
- finite strip method
- flight auger method
- flotation caisson method
- flue loss method
- folded plate method of analysis
- force method
- free cantilever method of construction
- general method of analysis
- Glotzl hydraulic cell method
- Gow method
- Hardy Cross method
- housing appraisal method
- in-duct method
- industrialized methods of construction
- iterative method
- jack method
- jacking method
- lacquer curtain coating method
- laser beam method
- leap-frog method
- limit equilibrium method
- limit state method
- listening methods
- load factor design method
- mandrel method
- mathematical method of design
- matrix method of structural analysis
- maturity method
- measuring method
- mixed-mode method
- mix-in-place method
- modern building methods
- modular ratio method
- moiré fringe method
- moment-balance method
- nondestructive methods of tests
- normal method of quality control
- null method
- numerical method
- one-rail method
- optical square method
- permissible stress method
- phototheodolite method
- plastic methods of structural analysis
- plate count method
- precast concrete manufacturing methods
- pressuremeter method
- proven construction methods
- p-y method of pile design
- rapid test method
- ratio method of balancing
- rebound hammer method
- reference point method
- relaxation method
- reproducible methods
- resistivity method
- resonant-frequency method
- reverberant field method
- Rockwell method of hardness testing
- safe method
- safe working methods
- secant interlocking pile method
- secant pile method
- seismic method of surveying
- seismic reflection method
- seismic refraction method
- semiprobabilistic design method
- shear transfer method
- shock response method of pile testing
- sliding-wedge method
- slope deflection method
- solar radiation method
- sonic method
- special method of quality control
- standard test method
- static regain method of duct sizing
- static regain method
- statistical design method
- step-by-step method
- strength design method
- strength evaluation method
- successive approximations method
- suspended cantilever method
- swamp shooting method
- Tagg method
- tangent modulus method
- test methods
- Theis method
- thixotropic liquid method
- three-point method
- tilt-up method
- time-saving method of construction
- TNO method of analysis
- TNO method of pile testing
- transit and stadia method
- tremie method
- truss analogy method
- turn-of-nut method
- ultrasonic pulse velocity method
- vacuum concrete method of bridge construction
- valveless pulse-jet method
- vane shear method
- velocity reduction method of duct sizing
- velocity reduction method
- vibratory method
- Vickers method of hardness testing
- volume method of measuring aggregates
- warm water method
- water fog spray method
- western bricklaying method
- western method
- working-stress design method

Welte, Edwin

SUBJECT AREA: Recording

[br]

b. 1876 Germany

d. after 1925

[br]

German instrument maker who developed piano-music recording methods for reproducing pianos.

[br]

He was the third generation of the Freiburg (Germany) firm of M.Welte \& Soehne, music box and orchestrion manufacturers, founded in 1832, and was made a partner in 1901. He was the driving force behind the development and refinement of the reproducing piano, which had an upper-class market from 1905 to c. 1925. With his partner and brother-in-law Karl Bockisch, he also developed recording methods that made it possible to distribute perforated paper rolls representing a reasonably accurate representation of the performance of famous soloists. This is a principle for recording and replay that is totally different from the mechanical recording principle, and at that time the quality was generally regarded as higher than that of mechanical reproduction. However, because of the possibilities of editing, the source value may be less certain. Welte's contribution was the first commercial use of a coded representation of live performances. The Welte patents were licensed to several other player-piano manufacturers.

[br]

Bibliography

German patent no. 162,708 (controlling the dynamics of reproduction).

Further Reading

Q.D.Bowers, 1972, Encyclopedia of Automatic Musical Instruments, New York: Vestal Press, pp. 319–38 (a good if somewhat uneven account of the Welte involvement in the reproduction of recorded sound).

GB-N

method

n

метод

- abbreviated method
- accelerated method
- accounting method
- accretion method
- accrual method
- accrued benefit valuation method
- actual cost method
- actuarial method
- adequate method
- ad hoc method
- advanced method
- advertising method
- age-life method of depreciation
- amortization method
- approximation method
- assessment method
- automated processing method
- backtracking method
- balance method
- batch method of production
- bidding methods
- block booking method
- bookkeeping method
- branch-and-bound method
- by-product method of cost accounting
- calculation method
- capital-intensive method of production
- case study method
- cash receipts and disbursements method of accounting
- common methods of fraud
- completed contract method
- complete elimination method
- composition ratio method
- continual review method
- control method
- conventional method
- conventional production methods
- costing method
- cost-based methods
- cost depletion method
- cost-plus method
- cost-recovery method
- cost-saving method
- credit-scoring method
- critical path method
- declining-balance depreciation method
- depreciation method
- design methods
- direct method of depreciation
- direct method of standardization
- direct write-off method
- discounted cash flow method
- distributing method
- distribution method
- double-declining-balance depreciation method
- double description method
- double entry method
- economical method
- effective method
- efficient method
- estimating method
- evaluation method
- fabrication method
- fifo costing method
- first in, first out costing method
- forecasting method
- general method
- generalized method
- genetic engineering method
- graduation method
- graph method
- gross method
- gross profit method
- index method
- indexing method
- industrial method
- inspection method
- installment sale method
- inventory method
- inventory valuation method
- investment valuation method
- irregular method of write-off
- item-by-item method
- job method of cost accounting
- job order method of cost accounting
- joint product method of cost accounting
- kid-glove methods
- labour-hour method of depreciation
- lean production methods
- least-squares method
- lifo costing method
- last in, first out costing method
- loading method
- machine-hour method
- machine-hour rate depreciation method
- machining method
- mail questionnaire method
- major category method
- manual methods
- manufacturing method
- matching transactions method
- materials moving methods
- net method
- network method
- normal method
- numerical method
- one-factor-at-a-time method
- operating method
- output method of depreciation
- packaging method
- packing method
- patentable method
- patented method
- payback method
- periodic inventory method
- perpetual inventory method
- perturbation method
- physical volume method
- playback method
- point method
- prediction methods
- present value method
- pricing method
- prime cost method
- process method of cost accounting
- processing method
- production methods
- production method of depreciation
- production control method
- profit split method
- progressive methods
- quality control method
- quantitative method
- random observation method
- ranking method
- reducing balance method of depreciation
- reinterview method
- replacement method of depreciation
- resale price method
- retirement method of depreciation
- risk management method
- safe method
- sample method
- sampling method
- saturation method
- scheduling method
- scientific method
- searching method
- sequential method
- service output depreciation method
- short method
- simplex method
- sinking fund method of depreciation
- special method
- standard method
- statistical method
- stochastic approximation method
- straight line method
- straight-line method of depreciation
- straight line depreciation method
- straight-line flow method
- sum of the digits method of depreciation
- sum of the years' digits method of depreciation
- systematical method
- table method
- tally sheet method
- taxation method
- teaching methods
- team development method
- test method
- testing method
- total inventory method
- trial and error method
- turnover method
- unit method of depreciation
- unit of production method of depreciation
- unit of production depreciation method
- valuation method
- variational method
- working method
- working hours method of depreciation
- workshop method
- method of accounting
- method of amortization
- method of analysis
- method of assessment
- method of average
- method of calculation
- method of characteristics
- method of collaboration
- method of comparison
- methods of construction
- method of conveyance
- method of cooperation
- method of delivery
- method of depreciation
- method of designated routes
- method of display
- method of distribution
- methods of dodging taxes
- method of estimation
- method of evaluation
- method of exclusion
- method of feasible directions
- method of finance
- method of financing
- method of forwarding
- method of identification
- method of indirect export
- method of indirect import
- method of inspection
- method of leading averages
- method of leading variables
- method of levying duties
- methods of management
- method of manufacture
- method of operation
- method of ordering
- method of packaging
- method of packing
- method of payment
- method of planning
- method of production
- method of promotion
- method of quality determination
- methods of regulation
- method of reimbursement
- method of sales promotion
- method of sampling
- method of settlement
- method of shipment
- method of shipping
- method of smoothing
- method of solution
- method of stowage
- method of stowing
- method of successive approximation
- methods of trading
- methods of training
- method of transportation
- method of working
- cost or market whichever is lower method of inventory valuation
- adopt a method
- apply a method
- develop a method
- employ a method
- follow a method
- introduce a method
- practise a method
- realize a method
- repeal a method
- revise a method
- work out a method

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

Bakewell, Robert

SUBJECT AREA: Agricultural and food technology

[br]

b. 23 May 1725 Loughborough, England

d. 1 October 1795 Loughborough, England

[br]

English livestock breeder who pioneered the practice of progeny testing for selecting breeding stock; he is particularly associated with the development of the Improved Leicester breed of sheep.

[br]

Robert Bakewell was the son of the tenant farming the 500-acre (200 hectare) Dishley Grange Farm, near Loughborough, where he was born. The family was sufficiently wealthy to allow Robert to travel, which he began to do at an early age, exploring the farming methods of the West Country, Norfolk, Ireland and Holland. On taking over the farm he continued the development of the irrigation scheme begun by his father. Arthur Young visited the farm during his tour of east England in 1771. At that time it consisted of 440 acres (178 hectares), 110 acres (45 hectares) of which were arable, and carried a stock of 60 horses, 400 sheep and 150 other assorted beasts. Of the arable land, 30 acres (12 hectares) were under root crops, mainly turnips.

Bakewell was not the first to pioneer selective breeding, but he was the first successfully to apply selection to both the efficiency with which an animal utilized its food, and its physical appearance. He always had a clear idea of the animal he wanted, travelled extensively to collect a range of animals possessing the characteristics he sought, and then bred from these towards his goal. He was aware of the dangers of inbreeding, but would often use it to gain the qualities he wanted. His early experiments were with Longhorn cattle, which he developed as a meat rather than a draught animal, but his most famous achievement was the development of the Improved Leicester breed of sheep. He set out to produce an animal that would put on the most meat in the least time and with the least feeding. As his base he chose the Old Leicester, but there is still doubt as to which other breeds he may have introduced to produce the desired results. The Improved Leicester was smaller than its ancestor, with poorer wool quality but with greatly improved meat-production capacity.

Bakewell let out his sires to other farms and was therefore able to study their development under differing conditions. However, he made stringent rules for those who hired these animals, requiring the exclusive use of his rams on the farms concerned and requiring particular dietary conditions to be met. To achieve this control he established the Dishley Society in 1783. Although his policies led to accusations of closed access to his stock, they enabled him to keep a close control of all offspring. He thereby pioneered the process now recognized as "progeny testing".

Bakewell's fame and that of his farm spread throughout the country and overseas. He engaged in an extensive correspondence and acted as host to all of influence in British and overseas agriculture, but it would appear that he was an over-generous host, since he is known to have been in financial difficulties in about 1789. He was saved from bankruptcy by a public subscription raised to allow him to continue with his breeding experiments; this experience may well have been the reason why he was such a staunch advocate of State funding of agricultural research.

[br]

Further Reading

William Houseman, 1894, biography, Journal of the Royal Agricultural Society. 1–31. H.C.Parsons, 1957, Robert Bakewell (contains a more detailed account).

R.Trow Smith, 1957, A History of British Livestock Husbandry to 1700, London: Routledge \& Kegan Paul.

—A History of British Livestock Husbandry 1700 to 1900 (places Bakewell within the context of overall developments).

M.L.Ryder, 1983, Sheep and Man, Duckworth (a scientifically detailed account which deals with Bakewell within the context of its particular subject).

AP

Logical Empiricism

   1) The Value of Modern Analytical Empiricism

   Modern analytical empiricism... differs from that of Locke, Berkeley, and Hume by its incorporation of mathematics and its development of a powerful logical technique. It is thus able, in regard to certain problems, to achieve definite answers, which have the quality of science rather than of philosophy. It has the advantage, as compared with the philosophies of the system-builders, of being able to tackle its problems one at a time, instead of having to invent at one stroke a block theory of the whole universe. Its methods, in this respect, resemble those of science. I have no doubt that, in so far as philosophical knowledge is possible, it is by such methods that it must be sought: I also have no doubt that, by these methods, many ancient problems are completely soluble.... Take such questions as: What is number? What are space and time? What is mind, and what is matter? I do not say that we can here and now give definitive answers to all these ancient questions, but I do say that a method has been discovered by which, as in science, we can make successive approximations to the truth, in which each new stage results from an improvement, not a rejection, of what has gone before. (Russell, 1961, pp. 788-789)

   2) The Grand Theses of Logical Empiricism Have Not Turned out to Be Correct

   Not a single one of the great theses of Logical Empiricism (that Meaning is Method of Verification; that metaphysical propositions are literally without sense; that Mathematics is True by Convention) has turned out to be correct. It detracts from the excitement of the fact that, by turning philosophical theses into linguistic ones [as Carnap had tried to do]... one can make philosophy more scientific and settle the truth value of philosophical propositions by hard scientific research, if the results one obtains are uniformly negative. (Putnam, 1975, p. 20)

Boulsover, Thomas

SUBJECT AREA: Domestic appliances and interiors, Metallurgy

[br]

b. 1704

d. 1788

[br]

English cutler, metalworker and inventor of Sheffield plate.

[br]

Boulsover, originally a small-scale manufacturer of cutlery, is believed to have specialized in making knife-handle components. About 1742 he found that a thin sheet of silver could be fused to copper sheet by rolling or beating to flatten it. Thus he developed the plating of silver, later called Sheffield plate.

The method when perfected consisted of copper sheet overlaid by thin sheet silver being annealed by red heat. Protected by iron sheeting, the copper and silver were rolled together, becoming fused to a single plate capable of undergoing further manufacturing processes. Later developments included methods of edging the fused sheets and the placing of silver sheet on both lower and upper surfaces of copper, to produce high-quality silver plate, in much demand by the latter part of the century. Boulsover himself is said to have produced only small articles such as buttons and snuff boxes from this material, which by 1758 was being exploited more commercially by Joseph Hancock in Sheffield making candlesticks, hot-water pots and coffee pots. Matthew Boulton introduced its manufacture in very high-quality products during the 1760s to Birmingham, where the technique was widely adopted later. By the 1770s Boulsover was engaged in rolling his plated copper for industry elsewhere, also trading in iron and purchasing blister steel which he converted by the Huntsman process to crucible steel. Blister steel was converted on his behalf to shear steel by forging. He is thought to have also been responsible for improving this product further, introducing "double-shear steel", by repeating the forging and faggoting of shear steel bars. Thomas Boulsover had become a Sheffield entrepreneur, well known for his numerous skills with metals.

[br]

Further Reading

H.W.Dickinson, 1937, Matthew Boulton, Cambridge: Cambridge University Press (describes Boulsover's innovation and further development of Sheffield plate).

J.Holland, 1834, Manufactures in Metal III, 354–8.

For activities in steel see: K.C.Barraclough, 1991, "Steel in the Industrial Revolution", in J.Day and R.F.Tylecote (eds), The Industrial Revolution in Metals, The Institute of Metals.

JD

Dunlop, John Boyd

SUBJECT AREA: Land transport

[br]

b. 5 February 1840 Dreghorn, Ayrshire, Scotland

d. 23 October 1921 Ballsbridge, Dublin, Ireland

[br]

Scottish inventor and pioneer of the pneumatic tyre.

[br]

Reared in an agricultural community, Dunlop became a qualified veterinary surgeon and practised successfully in Edinburgh and then in Belfast when he moved there in 1867. In October 1887, Dunlop's 9-year-old son complained of the rough ride he experienced with his tricycle over the cobbled streets of Belfast. Dunlop devised and fitted rubber air tubes, held on to a wooden ring by tacking a linen covering which he fixed around the wheels of the tricycle. A marked improvement in riding quality was noted. After further development, a new tricycle was ordered, with the new airtube wheels. This was so successful that Dunlop applied for a patent on 23 July 1889, granted on 7 December. With tyres made in Edinburgh to his specification, bicycles were manufactured by Edlin \& Co. of Belfast and put on sale complete with pneumatic tyres. The successful performance of a racing bicycle thus equipped inspired an unsuccessful competitor, William Harvey de Cros, who had used a solid-tyred machine, to take an interest in Dunlop's invention. With Dunlop, he refloated a company in Dublin, the Pneumatic Tyre \& Booth's Cycle Agency. Dunlop made over his patents, for the tyre, valves, rims and fixing methods, to Du Cros and took shares in the company. Although he was involved in it for many years, it was Du Cros who steered the company through several struggles to success.

The pneumatic tyre revolutionized cycling and made possible the success of the motor vehicle, although Dunlop did not profit greatly from his invention. After the sale of the company in 1896, to E.T.Hooley for $3 million, he took no further part in the development of the pneumatic tyre. The company went on to become the great Dunlop Rubber Company.

[br]

Further Reading

J.McClintock, 1923, History of the Pneumatic Tyre, Belfast (written by Dunlop's daughter, who based the book on her father's reminiscences).

LRD

department

1) структурное подразделение, административный орган (министерство, департамент, управление, отдел)

2) секция (в торговом предприятии)

3) функциональный отдел (напр. кадров, финансов)

4) факультет (университета)

- department of internal audit

- departments of social production

- accounting department

- administrative department

- advice department

- analysis department

- auditing department

- auxiliary department

- bank department

- bespoke department

- buying department

- cash department

- certification department

- city collection department

- collection department

- common service departments

- construction department

- contracts department

- controller's department

- cost department

- coupon collection department

- coupon paying department

- credit department

- customers' securities department

- data processing department

- delivery department

- deposit department

- design department

- development department

- direct department

- discount department

- distribution department

- drafting department

- engineering department

- factory department

- field service department

- finance department

- finance-and-accounts department

- food department

- food department in discounters

- foreign exchange department

- functional department

- general bookkeeping department

- general service department

- indirect departments

- insurance department

- internal audit department

- inventory department

- issue department

- labor and wages department

- leased department

- loan department

- lost and found department

- management services department

- manufacturing department

- marketing and sales department

- marking department

- materials department

- merchandise development department

- methods department

- military department

- new business department

- nonproductive departments

- operating department

- operations research department

- organization department

- packing department

- patent department

- personal loan department

- personnel department

- preproduction department

- process department

- procurement department

- producing department

- production department

- production control department

- production planning department

- production scheduling and control department

- productive department

- publicity department

- purchasing department

- quality control department

- quotation department

- receiving department

- requisitioning department

- sales department

- sales order department

- savings department

- scheduling department

- selling department

- service department

- shipping department

- shop-training department

- signature department

- staff department

- standards department

- state banking department

- statement department

- statistics department

- stock department

- stores department

- styling department

- supply department

- systems-and-procedures department

- telephone order department

- thrift department

- timekeeping department

- time study department

- traffic department

- transit department

- trust department

- voucher department

- wages department

- water department

- work-study department

department

n

1) отдел; отделение; подразделение; служба

2) департамент; управление; амер. министерство, ведомство

- accounting department
- accounts department
- administrative department
- advice department
- advertising department
- analysis department
- appeals department
- audit department
- auditing department
- auxiliary department
- bank department
- bank trust department
- bespoke department
- billing department
- bond department
- bookkeeping department
- branch department
- business department
- cash department
- certification department
- claims department
- collection department
- common service department
- contract department
- cost department
- coupons paying department
- custody department
- delivery department
- deposit department
- design department
- development department
- discount department
- distribution department
- drafting department
- employees' department
- employment department
- engineering department
- examining department
- examination department
- exchange department
- executive department
- export department
- field service department
- filing department
- finance department
- finance-and-accounts department
- finance-and-economy department
- foreign exchange department
- forwarding department
- functional department
- general accounting department
- general bookkeeping department
- general service department
- goods department
- government department
- indirect department
- information department
- inquiry department
- inspection department
- internal audit department
- inventory department
- labour and wages department
- law department
- leased department
- legal department
- lost and found department
- maintenance department
- manufacturing department
- manufacturing engineering department
- marketing department
- marking department
- materials department
- merchandise development department
- methods and procedures department
- new business department
- nonproductive departments
- operating department
- operational department
- order department
- organization department
- outpatients' department
- packing department
- patent department
- payroll department
- personnel department
- planning department
- preproduction department
- pricing department
- process department
- processing department
- procurement department
- production department
- production control department
- production scheduling and control department
- promotion department
- protocol department
- publication department
- publicity department
- purchasing department
- quality control department
- receiving department
- record department
- requisitioning department
- Revenue Department
- sales department
- sales order department
- savings department
- scheduling department
- securities department
- selling department
- service department
- shipping department
- shop-training department
- staff department
- staff training department
- standards department
- State Department
- statistics department
- stock department
- storage department
- stores department
- subcontractors department
- supply department
- technical department
- thrift department
- traffic department
- training department
- transport department
- transportation department
- trust department
- visa department
- wages department
- work study department
- Department of Agriculture
- Department of Commerce
- Department of Economic Affairs
- Department of Health, Education and Welfare
- Department of Industry
- Department of Justice
- Department of Labor
- Department of Overseas Trade
- Department of State
- Department of the Interior
- Department of the Navy
- Department of the Treasury
- Department of Transportation
- establish a department
- make up a department
- reequip a department

Agricola, Georgius (Georg Bauer)

SUBJECT AREA: Metallurgy

[br]

b. 24 March 1494 Glauchau, Saxony

d. 21 November 1555 Chemnitz, Germany

[br]

German metallurgist, who wrote the book De Re Metallica under the latinized version of his name.

[br]

Agricola was a physician, scientist and metallurgist of note and it was this which led to the publication of De Re Metallica. He studied at Leipzig University and between 1518 and 1522 he was a school teacher in Zwickau. Eventually he settled as a physician in Chemnitz. Later he continued his medical practice at Joachimstal in the Erzgebirge. This town was newly built to serve the mining community in what was at the time the most important ore-mining field in both Germany and Europe.

As a physician in the sixteenth century he would naturally have been concerned with the development of medicines, which would have led him to research the medical properties of ores and base metals. He studied the mineralogy of his area, and the mines, and the miners who were working there. He wrote several books in Latin on geology and mineralogy. His important work during that period was a glossary of mineralogical and mining terms in both Latin and German. It is, however, De Re Metallica for which he is best known. This large volume contains twelve books which deal with mining and metallurgy, including an account of glassmaking. Whilst one can understand the text of this book very easily, the quality of the illustrative woodcuts should not be neglected. These illustrations detail the mines, furnaces, forges and the plant associated with them, unfortunately the name of the artist is unknown. The importance of the work lies in the fact that it is an assemblage of information on all the methods and practices current at that time. The book was clearly intended as a textbook of mining and mineralogy and as such it would have been brought to England by German engineers when they were employed by the Mines Royal in the Keswick area in the late sixteenth century. In addition to his studies in preparation for De Re Metallica, Agricola was an "adventurer" holding shares in the Gottesgab mine in the Erzegebirge.

[br]

Principal Honours and Distinctions Bibliography

1556, De Re Metallica, Basel; 1912, trans. H. Hoover and L.H.Hoover, London.

KM

department

1) отдел; отделение

2) бюро; сектор

3) цех; мастерская

•

- advanced manufacturing technology department

- assembly department
- construction department
- cost accounting department
- cutting department
- department of energy
- design-engineering department
- designing department
- development department
- drafting department
- engine assembly department
- engineering department
- fab department
- fabrication department
- final inspection department
- finishing department
- functional department
- industrial engineering department
- instruments engineering department
- machining department
- maintenance department
- manufacturing department
- manufacturing engineering department
- marketing department
- mechanical engineering department
- melt department
- methods department
- NC inspection department
- NC systems department
- numerical control programming department
- planning department
- plating department
- press department
- process department
- processing planning department
- production control department
- production-planning department
- programming department
- punching department
- purchase department
- QC department
- quality control department
- quality department
- research department
- safety and occupational health department
- scheduling department
- secondary department
- setting department
- shipping department
- software-engineering department
- support department
- tool maintenance department
- tool supply department
- tool-grinding department
- tool-presetting department

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 Reading

J.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

job

1. сущ.

1)

а) общ. работа, дело, труд; задание, урок; (рабочая) операция

by the job — сдельно ( об оплате)

well-paid job — хорошо оплачиваемая работа

high-paid [high-salaried, high-salary\] job — высокооплачиваемая работа

low-paid [low-salaried, low-salary\] job — низкооплачиваемая работа

farm job — сельскохозяйственная работа, работа на ферме

office job — офисная работа, работа в офисе

web design job — работа в области веб-дизайна

quality control job — работа по контролю качества

selling job — работа, связанная с продажами

one-man job — работа, выполняемая одним человеком; работа, для выполнения которой требуется один человек

two-man job — работа, выполняемая двумя людьми; работа, для выполнения которой требуется два человека

painstaking job — трудоемкая [кропотливая\] работа

arduous job — тяжелая [трудная\] работа

risky job — рискованная [опасная\] работа

rush [time-critical\] job — спешная работа; срочная работа

job market — рынок труда

See:

service job, management job 1), odd job, McJob, off-the-job, on-the-job, part-time job, full-time job, job broker, job market, job analysis, job evaluation, job pricing, job description, job family, job design, job enlargement, job enrichment, job dilution, job characteristics model, job depth, job cycle, job scope, job shopper, job instruction, job instruction training, job management, job methods training, job relations training, job retraining, job performance, job-based pay, jobsite, Job Corps,

б) эк. заказ

Right now I’m working on six jobs for US and UK clients. — Непосредственно сейчас я работаю над шестью заказами американских и британских клиентов.

See:

job shop 1), jobber

в) общ., разг. трудное дело

They'll have a bit of a job getting here in this fog anyway. — В любом случае пробраться сюда в таком тумане будет непростой задачей.

2) общ., разг. место работы [службы\], работа; должность; рабочее место

administrative job — административная должность

to create new jobs — создавать новые рабочие места

to fire from a job — увольнять с работы

to take smb. off the job — отстранять кого-л. от работы

to lose a job — потерять работу

to retire from a job — уходить с работы на пенсию

to be out of a job — не иметь места (работы), быть без работы

to look for a job — искать работу

to get a job — получить работу

to change jobs — менять работу, переходить на другое место работы

to apply for a job — подавать заявление о приеме на работу

job applicant, applicant for a job — претендент на работу [рабочее место, должность\]

job application, application for a job — заявление о приеме на работу

job appointment — назначение на должность

job growth — рост числа рабочих мест, увеличение численности работающих

job shortage — недостаток [нехватка\] рабочих мест

job responsibilities — должностные обязанности

job search — поиски работы

job selection — выбор работы

job title — название должности

See:

job abandonment, job advertisement, job analyst, bridge job, community service job, trial job, subsidized job, Job Introduction Scheme, extra job, job chart, job bank, job centre, job club, job shop 2), job opportunity, Jobfinder Plus, jobplan workshop, job hunting, job wanted ad, job interview, job creation, job development, job burnout, job stress, job satisfaction, job rotation, job lock, job training, job coach, job competition theory, jobholder, jobless, job seeker, job-hopper, job leaver, job loser, job rights, job segregation, Job Training Partnership Act, non-monetary job characteristics, export of jobs

3) торг. неликвид, залежалый товар ( продается по сниженной цене)

See:

shelf pull merchandise

4) общ. протекция, блат

His appointment was a job. — Он получил назначение по протекции.

2. гл.

1) общ., редк. заниматься нерегулярной [случайной\] работой

He jobs as a gardener from time to time. — Время от времени он работает садовником.

2) бирж., редк. быть посредником [перекупщиком, джоббером\] ( перепродавать мелкие партии товаров или ценных бумаг)

to job in shares — перепродавать ценные бумаги

See:

jobbing

3) общ., устар. ( пользоваться служебным положением в личных целях)

3. прил.

1) эк. тр. сдельный, наемный (о какой-л. недолгосрочной работе); выполняемый по заказам, связанный с работой по заказам

job work — сдельная работа

See:

job shop

2) общ. относящийся к работающим [занятости\]

overseas job vacancies — вакантные (рабочие) места за границей

* * *
1) работа; дело; труд; 2) задание; конкретный проект; 3) функции работника.