master curves

master curves

1. теоретические кривые

 

теоретические кривые
Палетки, рассчитанные для различных моделей среды. Используют для интерпретации наблюдённых данных в методах ВП, сопротивления и электромагнитных исследований. Находят наилучшее соответствие теоретической кривой и наблюдённых данных и приписывают среде значения параметров соответствующей модели
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]

Тематики

• нефтегазовая промышленность

EN

• type curves
• master curves

master curves

Яхтенный спорт: базовые кривые теоретического чертежа

master curves

базовые кривые теоретического чертежа

album of master curves

• альбом теоретических кривых

• семейство теоретических палеток

catalog of master curves

• альбом палеточных кривых

• альбом теоретических палеток

• семейство теоретических палеток

set of master curves

• альбом теоретических кривых зондирования

• семейство теоретических кривых зондирования

• семейство теоретических палеток

album of master curves

Геофизика: альбом теоретических кривых, семейство теоретических палеток

catalog of master curves

Геофизика: альбом палеточных кривых, альбом теоретических палеток, семейство теоретических палеток

set of master curves

Геофизика: альбом теоретических кривых зондирования, семейство теоретических кривых зондирования, семейство теоретических палеток

type curves

1. теоретические кривые

 

теоретические кривые
Палетки, рассчитанные для различных моделей среды. Используют для интерпретации наблюдённых данных в методах ВП, сопротивления и электромагнитных исследований. Находят наилучшее соответствие теоретической кривой и наблюдённых данных и приписывают среде значения параметров соответствующей модели
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]

Тематики

• нефтегазовая промышленность

EN

• type curves
• master curves

type curves

теоретические кривые (палетки, рассчитанные для различных моделей среды; используют для интерпретации наблюдённых данных в методах ВП, сопротивления и электромагнитных исследований; находят наилучшее соответствие теоретической кривой и наблюдённых данных и приписывают среде значения параметров соответствующей модели; синоним: master curves)

control

1) управление; регулирование || управлять; регулировать

2) контроль || контролировать

3) управляющее устройство; устройство управления; регулятор

4) профессиональное мастерство, квалификация, техническая квалификация

5) pl органы управления

•

control by measurement — измерительный контроль

"in control" — "в поле допуска" ( о результатах измерения)

to control closed loop — управлять в замкнутой системе; регулировать в замкнутой системе

to control open loop — управлять в разомкнутой системе; регулировать в разомкнутой системе

to program at the control — готовить УП у станка

- 2 1/2 D control

- 2-handed controls
- 32-bit CPU control
- acceptance control
- access control
- acknowledge control
- active process control
- adaptable control
- adaptive constraint control
- adaptive control for optimization
- adaptive control
- adaptive feed rate control
- adaptive quality control
- adjustable feed control
- adjustable rotary control
- adjustable speed control
- adjusting control
- adjustment control
- AI control
- air logic control
- analog data distribution and control
- analogical control
- analytical control
- application control
- arrows-on-curves control
- autodepth control
- autofeed control
- automated control of a document management system
- automated technical control
- automatic backlash control
- automatic control
- automatic editing control
- automatic gain control
- automatic gripper control
- automatic level control
- automatic process closed loop control
- automatic remote control
- automatic sensitivity control
- automatic sequence control
- automatic speed control
- automatic stability controls
- auxiliaries control
- balanced controls
- band width control
- bang-bang control
- bang-bang-off control
- basic CNC control
- batch control
- bibliographic control
- bin level control
- boost control
- built-in control
- button control
- cam control
- cam throttle control
- camshaft control
- carriage control
- Cartesian path control
- Cartesian space control
- cascade control
- C-axis spindle control
- cell control
- center control
- central control
- central supervisory control
- centralized control
- centralized electronic control
- central-station control
- changeover control
- chip control
- circumferential register control
- close control
- closed cycle control
- closed loop control
- closed loop machine control
- closed loop manual control
- closed loop numerical control
- closed loop position control
- clutch control
- CNC control
- CNC indexer control
- CNC programmable control
- CNC symbolic conversational control
- CNC/CRT control
- CNC/MDI control
- coarse control
- coded current control
- coded current remote control
- color control
- combination control
- command-line control
- compensatory control
- composition control
- compound control
- computed-current control
- computed-torque control
- computer control
- computer numerical control
- computer process control
- computer-aided measurement and control
- computer-integrated manufacturing control
- computerized control
- computerized numerical control
- computerized process control
- constant surface speed control
- constant value control
- contactless control
- contact-sensing control
- contamination control
- continuous control
- continuous path control
- continuous process control
- contour profile control
- contouring control
- conventional hardware control
- conventional numerical control
- conventional tape control
- convergent control
- conversational control
- conversational MDI control
- coordinate positioning control
- coordinate programmable control
- copymill control
- counter control
- crossed controls
- current control
- cycle control
- dash control
- data link control
- data storage control
- deadman's handle controls
- depth control
- derivative control
- dial-in control
- differential control
- differential gaging control
- differential gain control
- differential temperature control
- digital brushless servo control
- digital control
- digital position control
- digital readout controls
- dimensional control
- direct computer control
- direct control
- direct digital control
- direct numerical control
- direction control
- directional control
- dirt control
- discontinuous control
- discrete control
- discrete event control
- discrete logic controls
- dispatching control
- displacement control
- distance control
- distant control
- distributed control
- distributed numerical control
- distributed zone control
- distribution control
- dog control
- drum control
- dual control
- dual-mode control
- duplex control
- dust control
- dynamic control
- eccentric control
- edge position control
- EDP control
- electrical control
- electrofluidic control
- electromagnetic control
- electronic control
- electronic level control
- electronic speed control
- electronic swivel control
- elevating control
- emergency control
- end-point control
- engineering change control
- engineering control
- entity control
- environmental control
- error control
- error plus error-rate control
- error-free control
- external beam control
- factory-floor control
- false control
- feed control
- feed drive controls
- feedback control
- feed-forward control
- field control
- fine control
- finger-tip control
- firm-wired numerical control
- fixed control
- fixed-feature control
- fixture-and-tool control
- flexible-body control
- floating control
- flow control
- fluid flow control
- follow-up control
- foot pedal control
- force adaptive control
- forecasting compensatory control
- fork control
- four quadrant control
- freely programmable CNC control
- frequency control
- FROG control
- full computer control
- full order control
- full spindle control
- gage measurement control
- gain control
- ganged control
- gap control
- gear control
- generative numerical control
- generic path control
- geometric adaptive control
- graphic numerical control
- group control
- grouped control
- guidance control
- hairbreath control
- hand control
- hand feed control
- hand wheel control
- hand-held controls
- handle-type control
- hand-operated controls
- hardened computer control
- hardwared control
- hardwared numerical control
- heating control
- heterarchical control
- hierarchical control
- high-integrity control
- high-level robot control
- high-low control
- high-low level control
- high-technology control
- horizontal directional control
- humidity control
- hybrid control
- hydraulic control
- I/O control
- immediate postprocess control
- inching control
- in-cycle control
- independent control
- indexer control
- indirect control
- individual control
- industrial processing control
- industrial-style controls
- infinite control
- infinite speed control
- in-process control
- in-process size control
- in-process size diameters control
- input/output control
- integral CNC control
- integral control
- integrated control
- intelligent control
- interacting control
- interconnected controls
- interlinking control
- inventory control
- job control
- jogging control
- joint control
- joystick control
- just-in-time control
- language-based control
- laser health hazards control
- latching control
- lead control
- learning control
- lever control
- lever-operated control
- line motion control
- linear control
- linear path control
- linearity control
- load control
- load-frequency control
- local control
- local-area control
- logic control
- lubricating oil level control
- machine control
- machine programming control
- machine shop control
- macro control
- magnetic control
- magnetic tape control
- main computer control
- malfunction control
- management control
- manual control
- manual data input control
- manual stop control
- manually actuatable controls
- manufacturing change control
- manufacturing control
- master control
- material flow control
- MDI control
- measured response control
- mechanical control
- memory NC control
- memory-type control
- metering control
- metrological control of production field
- microbased control
- microcomputer CNC control
- microcomputer numerical control
- microcomputer-based sequence control
- microprocessor control
- microprocessor numerical control
- microprogrammed control
- microprogramming control
- milling control
- model reference adaptive control
- model-based control
- moisture control
- motion control
- motor control
- motor speed control
- mouse-driven control
- movable control
- multicircuit control
- multidiameter control
- multilevel control
- multimachine tool control
- multiple control
- multiple-processor control
- multiposition control
- multistep control
- multivariable control
- narrow-band proportional control
- navigation control
- NC control
- neural network adaptive control
- noise control
- noncorresponding control
- noninteracting control
- noninterfacing control
- nonreversable control
- nonsimultaneous control
- numerical contouring control
- numerical control
- numerical program control
- odd control
- off-line control
- oligarchical control
- on-board control
- one-axis point-to-point control
- one-dimensional point-to-point control
- on-line control
- on-off control
- open loop control
- open loop manual control
- open loop numerical control
- open-architecture control
- operating control
- operational control
- operator control
- optical pattern tracing control
- optimal control
- optimalizing control
- optimizing control
- oral numerical control
- organoleptic control
- overall control
- overheat control
- override control
- p. b. control
- palm control
- parameter adaptive control
- parameter adjustment control
- partial d.o.f. control
- path control
- pattern control
- pattern tracing control
- PC control
- PC-based control
- peg board control
- pendant control
- pendant-actuated control
- pendant-mounted control
- performance control
- photoelectric control
- physical alignment control
- PIC control
- PID control
- plugboard control
- plug-in control
- pneumatic control
- point-to-point control
- pose-to-pose control
- position/contouring numerical control
- position/force control
- positional control
- positioning control
- positive control
- postprocess quality control
- power adaptive control
- power control
- power feed control
- power-assisted control
- powered control
- power-operated control
- precision control
- predictor control
- preselective control
- preset control
- presetting control
- pressbutton control
- pressure control
- preview control
- process control
- process quality control
- production activity control
- production control
- production result control
- programmable adaptive control
- programmable cam control
- programmable control
- programmable logic adaptive control
- programmable logic control
- programmable machine control
- programmable microprocessor control
- programmable numerical control
- programmable sequence control
- proportional plus derivative control
- proportional plus floating control
- proportional plus integral control
- prototype control
- pulse control
- pulse duration control
- punched-tape control
- purpose-built control
- pushbutton control
- quality control
- radio remote control
- radium control
- rail-elevating control
- ram stroke control
- ram-positioning control
- rapid-traverse controls for the heads
- rate control
- ratio control
- reactive control
- real-time control
- reduced-order control
- register control
- registration control
- relay control
- relay-contactor control
- remote control
- remote program control
- remote switching control
- remote valve control
- remote-dispatch control
- resistance control
- resolved motion rate control
- retarded control
- reversal control
- revolution control
- rigid-body control
- robot control
- robot perimeter control
- robot teach control
- rod control
- safety control
- sampled-data control
- sampling control
- schedule control
- SCR's control
- second derivative control
- selective control
- selectivity control
- self-acting control
- self-adaptive control
- self-adjusting control
- self-aligning control
- self-operated control
- self-optimizing control
- self-programming microprocessor control
- semi-automatic control
- sensitivity control
- sensor-based control
- sequence control
- sequence-type control
- sequential control
- series-parallel control
- servo control
- servo speed control
- servomotor control
- servo-operated control
- set value control
- shaft speed control
- shape control
- shift control
- shop control
- shower and high-pressure oil temperature control
- shut off control
- sight control
- sign control
- single variable control
- single-flank control
- single-lever control
- size control
- slide control
- smooth control
- software-based NC control
- softwared numerical control
- solid-state logic control
- space-follow-up control
- speed control
- stabilizing control
- stable control
- standalone control
- start controls
- static control
- station control
- statistical quality control
- steering control
- step-by-step control
- stepless control
- stepped control
- stick control
- stock control
- stop controls
- stop-point control
- storage assignment control
- straight cut control
- straight line control
- stroke control
- stroke length control
- supervisor production control
- supervisory control
- swarf control
- switch control
- symbolic control
- synchronous data link control
- table control
- tap-depth controls
- tape control
- tape loop control
- teach controls
- temperature control
- temperature-humidity air control
- template control
- tension control
- test control
- thermal control
- thermostatic control
- three-axis contouring control
- three-axis point-to-point control
- three-axis tape control
- three-mode control
- three-position control
- throttle control
- thumbwheel control
- time control
- time cycle control
- time optimal control
- time variable control
- time-critical control
- time-proportional control
- timing control
- token-passing access control
- tool life control
- tool run-time control
- torque control
- total quality control
- touch-panel NC control
- touch-screen control
- tracer control
- tracer numerical control
- trajectory control
- triac control
- trip-dog control
- TRS/rate control
- tuning control
- turnstile control
- two-axis contouring control
- two-axis point-to-point control
- two-dimension control
- two-hand controls
- two-position control
- two-position differential gap control
- two-step control
- undamped control
- user-adjustable override controls
- user-programmable NC control
- variable flow control
- variable speed control
- variety control
- varying voltage control
- velocity-based look-ahead control
- vise control
- vision responsive control
- visual control
- vocabulary control
- vocal CNC control
- vocal numerical control
- voltage control
- warehouse control
- washdown control
- water-supply control
- welding control
- wheel control
- wide-band control
- zero set control
- zoned track control

form

form [fɔ:m]

forme ⇒ 1 (a)-(d), 1 (f)-(m), 1 (r), 1 (s) silhouette ⇒ 1 (b) formulaire ⇒ 1 (e) classe ⇒ 1 (n) former ⇒ 2 (a), 2 (b), 2 (e), 2 (f) façonner ⇒ 2 (a) se former ⇒ 2 (c), 3 (a), 3 (b) créer ⇒ 2 (d) composer ⇒ 2 (e)

1 noun

(a) (shape) forme f;

∎ in the form of a heart en forme de cœur;

∎ her plan began to take form son projet a commencé à prendre tournure ou forme

(b) (body, figure) forme f, silhouette f;

∎ a slender form appeared at the door une silhouette élancée apparut à la porte;

∎ the human form la forme humaine

(c) (aspect, mode) forme f;

∎ it's written in the form of a letter c'est écrit sous forme de lettre;

∎ the Devil appeared in the form of a goat le diable apparut sous la forme d'une chèvre;

∎ the same product in a new form le même produit présenté différemment;

∎ what form should my questions take? comment devrais-je formuler mes questions?;

∎ the interview took the form of an informal chat l'entrevue prit la forme d'une discussion informelle;

∎ her anxiety showed itself in the form of anger son inquiétude se manifesta par de la colère

(d) (kind, type) forme f, sorte f;

∎ one form of cancer une forme de cancer;

∎ we studied three different forms of government nous avons examiné trois systèmes de gouvernement ou trois régimes différents;

∎ all forms of sugar le sucre sous toutes ses formes;

∎ she sent some flowers as a form of thanks elle a envoyé des fleurs en guise de remerciements

(e) (document) formulaire m; (for bank, telegram) formule f;

∎ to fill in or out a form remplir un formulaire;

∎ printed form imprimé m

(f) (condition) forme f, condition f;

∎ in good form en pleine forme, en excellente condition;

∎ British on form, American in form en forme;

∎ John was British on or American in good form at lunch John était en forme ou plein d'entrain pendant le déjeuner;

∎ I'm British on or American in top form je suis en pleine forme;

∎ British on or American in their current form they're unlikely to win étant donné leur forme actuelle ils ont peu de chances de gagner;

∎ he's British off or American out of form il n'est pas en forme;

∎ to study (the) form (in horse racing) examiner le tableau des performances des chevaux

(g) (gen) & Art, Literature & Music forme f;

∎ form and content la forme et le fond;

∎ his writing lacks form ce qu'il écrit n'est pas clair;

∎ her ideas lack form ses idées sont confuses

(h) (standard practice) forme f, règle f;

∎ to do sth as a matter of form faire qch pour la forme;

∎ what's the usual form in these cases? que fait-on d'habitude ou quelle est la marche à suivre dans ces cas-là?;

∎ familiar to know the form (what to do) savoir ce qu'il faut faire^□ ;

∎ Law in due form en bonne et due forme

(i) old-fashioned (etiquette) forme f, formalité f;

∎ it's bad form cela ne se fait pas;

∎ it's good form c'est de bon ton, cela se fait;

∎ it is bad form to ask a lady her age ce n'est pas poli de demander son âge à une dame

(j) (formula) forme f, formule f;

∎ form of address formule f de politesse;

∎ the correct form of address for a senator la manière correcte de s'adresser à un sénateur;

∎ it's only a form of speech ce n'est qu'une façon de parler;

∎ the form of the marriage service les rites mpl du mariage

(k) (mould) forme f, moule m

(l) Grammar & Linguistics forme f;

∎ the masculine form la forme du masculin, le masculin

(m) Philosophy (structure) forme f; (essence) essence f

(n) British School (class) classe f;

∎ she's in the first/sixth form ≃ elle est en sixième/première

(o) British (bench) banc m

(p) British familiar (criminal record) casier m judiciaire^□ ;

∎ has he got form? est-ce qu'il a un casier judiciaire?

(q) Computing (on Internet) formulaire m

(r) American Typography forme f

(s) (of hare) gîte m, forme f

2 transitive verb

(a) (shape) former, construire; (character, mind) former, façonner; (sentence) construire; Metallurgy former, façonner;

∎ he formed the model out of or from clay il a sculpté ou façonné le modèle dans l'argile;

∎ form the dough into a ball pétrissez la pâte en forme de boule;

∎ she has trouble forming certain words elle a du mal à prononcer certains mots;

∎ it was certainly a character-forming experience c'est sans aucun doute une expérience qui forme ou façonne le caractère

(b) (take the shape of) former, faire;

∎ the coastline forms a series of curves la côte forme une série de courbes;

∎ the children formed a circle les enfants formèrent un cercle;

∎ form a line please faites la queue s'il vous plaît;

∎ the applicants formed a queue les candidats firent la queue

(c) (develop → opinion) se former, se faire; (→ plan) concevoir, élaborer; (→ habit) contracter;

∎ he's wary of forming friendships il hésite à nouer des amitiés;

∎ to form an impression avoir une impression

(d) (organize → association, club) créer, fonder; (→ committee, government) former; Commerce (→ company) fonder, créer;

∎ they formed themselves into a committee ils se constituèrent en comité

(e) (constitute) composer, former;

∎ to form the basis of sth constituer la base de ou servir de base à qch;

∎ to form (a) part of sth faire partie de qch;

∎ the countries forming the alliance les pays qui constituent l'alliance

(f) Grammar former;

∎ how to form the past tense comment former le passé composé

3 intransitive verb

(a) (materialize) se former, prendre forme;

∎ doubts began to form in his mind des doutes commencèrent à prendre forme dans son esprit, il commença à avoir des doutes

(b) (take shape) se former;

∎ form into a line! alignez-vous!;

∎ we formed into groups nous nous sommes mis en groupes, nous avons formé des groupes

►► Linguistics form class catégorie f grammaticale;

Computing form document document m canevas;

Computing form feed avancement m du papier;

form letter lettre f circulaire;

British School form master ≃ professeur m principal;

British School form mistress ≃ professeur m principal;

British School form room salle f de classe, classe f;

British School form teacher, form tutor ≃ professeur m principal;

Linguistics form word mot-outil m, mot m faisant fonction de désinence

➲ form up intransitive verb

British se mettre en ligne, s'aligner

Fairlie, Robert Francis

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. March 1831 Scotland

d. 31 July 1885 Clapham, London, England

[br]

British engineer, designer of the double-bogie locomotive, advocate of narrow-gauge railways.

[br]

Fairlie worked on railways in Ireland and India, and established himself as a consulting engineer in London by the early 1860s. In 1864 he patented his design of locomotive: it was to be carried on two bogies and had a double boiler, the barrels extending in each direction from a central firebox. From smokeboxes at the outer ends, return tubes led to a single central chimney. At that time in British practice, locomotives of ever-increasing size were being carried on longer and longer rigid wheelbases, but often only one or two of their three or four pairs of wheels were powered. Bogies were little used and then only for carrying-wheels rather than driving-wheels: since their pivots were given no sideplay, they were of little value. Fairlie's design offered a powerful locomotive with a wheelbase which though long would be flexible; it would ride well and have all wheels driven and available for adhesion.

The first five double Fairlie locomotives were built by James Cross \& Co. of St Helens during 1865–7. None was particularly successful: the single central chimney of the original design had been replaced by two chimneys, one at each end of the locomotive, but the single central firebox was retained, so that exhaust up one chimney tended to draw cold air down the other. In 1870 the next double Fairlie, Little Wonder, was built for the Festiniog Railway, on which C.E. Spooner was pioneering steam trains of very narrow gauge. The order had gone to George England, but the locomotive was completed by his successor in business, the Fairlie Engine \& Steam Carriage Company, in which Fairlie and George England's son were the principal partners. Little Wonder was given two inner fireboxes separated by a water space and proved outstandingly successful. The spectacle of this locomotive hauling immensely long trains up grade, through the Festiniog Railway's sinuous curves, was demonstrated before engineers from many parts of the world and had lasting effect. Fairlie himself became a great protagonist of narrow-gauge railways and influenced their construction in many countries.

Towards the end of the 1860s, Fairlie was designing steam carriages or, as they would now be called, railcars, but only one was built before the death of George England Jr precipitated closure of the works in 1870. Fairlie's business became a design agency and his patent locomotives were built in large numbers under licence by many noted locomotive builders, for narrow, standard and broad gauges. Few operated in Britain, but many did in other lands; they were particularly successful in Mexico and Russia.

Many Fairlie locomotives were fitted with the radial valve gear invented by Egide Walschaert; Fairlie's role in the universal adoption of this valve gear was instrumental, for he introduced it to Britain in 1877 and fitted it to locomotives for New Zealand, whence it eventually spread worldwide. Earlier, in 1869, the Great Southern \& Western Railway of Ireland had built in its works the first "single Fairlie", a 0–4–4 tank engine carried on two bogies but with only one of them powered. This type, too, became popular during the last part of the nineteenth century. In the USA it was built in quantity by William Mason of Mason Machine Works, Taunton, Massachusetts, in preference to the double-ended type.

Double Fairlies may still be seen in operation on the Festiniog Railway; some of Fairlie's ideas were far ahead of their time, and modern diesel and electric locomotives are of the powered-bogie, double-ended type.

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Bibliography

1864, British patent no. 1,210 (Fairlie's master patent).

1864, Locomotive Engines, What They Are and What They Ought to Be, London; reprinted 1969, Portmadoc: Festiniog Railway Co. (promoting his ideas for locomotives).

1865, British patent no. 3,185 (single Fairlie).

1867. British patent no. 3,221 (combined locomotive/carriage).

1868. "Railways and their Management", Journal of the Society of Arts: 328. 1871. "On the Gauge for Railways of the Future", abstract in Report of the Fortieth

Meeting of the British Association in 1870: 215. 1872. British patent no. 2,387 (taper boiler).

1872, Railways or No Railways. "Narrow Gauge, Economy with Efficiency; or Broad Gauge, Costliness with Extravagance", London: Effingham Wilson; repr. 1990s Canton, Ohio: Railhead Publications (promoting the cause for narrow-gauge railways).

Further Reading

Fairlie and his patent locomotives are well described in: P.C.Dewhurst, 1962, "The Fairlie locomotive", Part 1, Transactions of the Newcomen Society 34; 1966, Part 2, Transactions 39.

R.A.S.Abbott, 1970, The Fairlie Locomotive, Newton Abbot: David \& Charles.

PJGR