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101 local
1 adjCOMP&DP, TELECOM local2 -
102 labor
труд имя существительное:потуги (labor, labour)глагол:мучиться родами (labor, labour)испытывать качку (labor, labour)кропотливо разрабатывать (labor, labour)вдаваться в мелочи (labor, labour)имя прилагательное:лейбористский (labor, labour) -
103 labour
труд имя существительное:потуги (labor, labour)глагол:мучиться родами (labor, labour)испытывать качку (labor, labour)кропотливо разрабатывать (labor, labour)вдаваться в мелочи (labor, labour)имя прилагательное:лейбористский (labor, labour) -
104 epiphora
... a,... a,... a,the end of successive sentences (clauses) is repeatedThe main stylistic function is to add stress to the final words of the sentence. (V.A.K.)I wake up and I'm alone and I walk round Warley and I'm alone; and I talk with people and I'm alone and I look at his face when I'm home and it's dead. (J.Braine)
Ant.: anaphoraSee: repetitionEnglish-Russian dictionary of stylistics (terminology and examples) > epiphora
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105 state
1) состояние2) положение4) физ. энергетический уровень5) государство || государственный6) штат7) заявлять; утверждать8) излагать; констатировать9) фиксировать•- completely defined state - completely reachable state - state of being curved - state of plane stressreduction to a single-domain state — физ. монодоменизация
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106 composite
1. n архит. сложный ордер2. n биол. популяция3. n спец. композит, композиционный материал4. a составной, сложныйcomposite carriage — комбинированный вагон, состоящий из купе различных классов
5. a бот. сложноцветный6. a архит. относящийся к сложному ордеруСинонимический ряд:1. compound (adj.) combined; complex; compound; consolidated; mosaic; synthesized2. combination (noun) aggregate; collage; combination; complex; composition; compound; synthesis3. mixture (noun) admixture; alloy; amalgam; amalgamation; blend; commixture; compost; fusion; immixture; interfusion; intermixture; mix; mixture; mix-up -
107 continuous
1. a непрерывный, непрекращающийся, длительныйcontinuous cropping — бессменная культура; монокультура
2. a непрерывного действияcontinuous performance theatre — кинотеатр, работающий без перерывов между сеансами
3. a спец. сплошной4. a эл. постоянный5. a грам. длительныйСинонимический ряд:1. continual (adj.) around-the-clock; ceaseless; connected; consecutive; constant; continual; endless; eternal; everlasting; incessant; interminable; minutely; non-stop; perpetual; regular; relentless; repeated; round-the-clock; successive; timeless; unbroken; unceasing; unending; unintermitted; unintermittent; uninterrupted; unremitting2. assiduous (noun) assiduous; consistent; persisting; tireless; unflagging; unrelenting; untiringАнтонимический ряд:broken; temporary -
108 mean
1. n середина2. n мат. среднее число, средняя величинаthe mean of 3, 5 and 7 is 5 — среднее между 3, 5 и 7 равно 5
accuracy in the mean — средняя точность; точность в среднем
3. n уст. умеренность4. a среднийmean solar day — средние солнечные сутки, средняя продолжительность солнечных суток
mean proportional — среднее геометрическое; средняя пропорциональная величина
mean observed range — средняя дальность наблюдения, средняя видимость
mean water — нормальный уровень воды; межень
5. a посредственный, плохой; слабый6. a скупой, скаредный7. a скудный, бедный, жалкий, убогий; нищенский8. a низкий, подлый, нечестный, презренный9. a низкого происхождения10. a разг. мелочный, придирчивый; неприветливый; злобныйhe was mean, also ugly — он был злобен и уродлив
11. a амер. разг. совестливый; смущающийсяto feel mean — стыдиться, смущаться, чувствовать себя неловко
12. a амер. разг. нездоровый, чувствующий недомоганиеto feel mean — быть нездоровым, чувствовать недомогание
13. a амер. разг. норовистый14. a амер. разг. амер. разг. трудный, неподдающийся15. a амер. разг. амер. разг. злой16. v намереваться, иметь в видуI did not mean to offend you, I meant you no offence — я не хотел вас обидеть
without meaning it — не имея этого в виду; не желая того
17. v подразумевать, иметь в виду; думатьdo you mean him ? — вы подразумеваете его ?, вы имеете в виду его ?
what do you mean by laughing at me? — в чём дело, почему ты смеёшься надо мной?
what exactly do you mean? — что вы, собственно говоря, имеете в виду?
this is what I mean — вот что я имею в виду, вот что я хочу сказать
do you think he means what he says? — вы думаете, он говорит серьёзно?
he certainly meant what he said — он сказал именно то, что думал; он сказал это всерьёз
I mean it! — я серьёзно говорю!; я не шучу!
I see what you mean — я понимаю, что ты имеешь в виду
18. v предназначатьI meant this remark for a joke — я сказал это в шутку, я пошутил
19. v означать, значить, предвещатьthe conflict probably means war — этот конфликт может привести к войне, этот конфликт чреват войной
20. v значить, иметь значениеСинонимический ряд:1. cheap (adj.) cheap; cheesy; rubbishing; rubbishly; rubbishy; shoddy; sleazy; tatty; trashy; trumpery2. common (adj.) base; baseborn; common; humble; ignoble; lowborn; lowly; ordinary; servile; simple; undistinguished; unennobled; unpretentious; unwashed3. contemptible (adj.) beggarly; contemptible; despicable; despisable; fraudulent; infamous; pitiable; pitiful; repellent; scummy; scurvy; sorry; treacherous; unscrupulous; vile; wretched4. evil (adj.) bad; cruel; evil; malicious; malign; malignant; nasty; poisonous; spiteful; venomous; vicious5. inferior (adj.) declasse; hack; inconsequent; inferior; insignificant; low-grade; miserable; nonessential; second-class; second-drawer; second-rate; substandard; unessential; unimportant6. little (adj.) borne; ineffectual; limited; little; narrow; narrow-minded; petty; set; small; small-minded7. low (adj.) abhorrent; detestable; disgusting; filthy; foul; loathsome; low; low-down; obnoxious; odious; reprehensible; repugnant; rotten; sordid; squalid8. meager (adj.) meager; paltry; scanty; skimpy9. medium (adj.) average; channel; fair; fairish; indifferent; mediocre; medium; middle-rate; middling; moderate; run-of-mine; run-of-the-mill; so-so10. middle (adj.) center; central; intermediary; intermediate; medial; median; mid; middle; middle-of-the-road; midway11. shabby (adj.) coarse; plebeian; poor; shabby; undignified; vulgar12. stingy (adj.) cheeseparing; close; closefisted; close-fisted; costive; hardfisted; hardhanded; illiberal; ironfisted; mercenary; mingy; miserly; narrow-fisted; narrowhearted; niggard; niggardly; parsimonious; penny-pinching; penny-wise; penurious; pinching; pinchpenny; save-all; scrimpy; scrimy; selfish; stingy; tight; tightfisted; ungenerous; ungiving13. troublesome (adj.) pesky; troublesome; troublous; ugly; vexatious; wicked14. unwell (adj.) ailing; indisposed; off-color; offish; poorly; sickly; underly; unwell15. average (noun) average; median; medium; middle; norm; par16. add up to (verb) add up to; connote; count; denote; express; import; indicate; intend; matter; signify; spell; suggest; weigh17. call for (verb) call for; demand; entail; require18. determine (verb) determine; resolve19. plan (verb) aim; contemplate; design; intend; plan; project; propose; purpose -
109 analysis
анализ; исследование; изучение; расчетaccelerated analysisaerodynamic analysisaeroservoelastic analysisbending analysisBode analysisboundary element analysisbuckling analysiscampaign analysiscanard-wing analysischaracteristic analysisclosed-loop analysiscovariance analysiscrack growth analysiscrack propagation analysiscrash analysisdecoupled analysisdeferred-time analysisdescribing function analysisdivergence analysisdynamic response analysiseffectiveness analysiseigenvalue analysiselastoplastic analysiselastostatic analysisequivalent plate analysisfatigue analysisfinite-element analysisflap-lag analysisflight dynamics analysisflight data analysisFloquet analysisflow analysisflutter analysisFourier analysisfractographic analysisfracture analysisfrequency domain analysisfrequency-of-maintenance analysisGalerkin analysisharmonic analysisheavy-rain analysishover analysishydroelastic analysisinelastic analysisJ-integral analysislateral-directional analysislifting-line analysisloads analysislongitudinal analysisMach box analysismaneuver analysismass property analysismatrix analysismission analysismission-area analysismixed mode analysismodal analysismodel-based analysisMonte Carlo analysisMyklestad analysisNeal-Smith analysisnonlinear analysisnonlinear flutter analysisNyquist analysisopen-loop analysisparabolized Navier-Stokes analysisparameter analysisparametric analysispilot-in-the-loop analysispilot-vehicle analysispneumodynamic analysispost-buckling analysispre-aerobatic analysispredevelopment analysisPSD analysisR-R analysisRayleigh-Ritz analysisreal-time analysisregression analysisrepair-level analysisroot-locus analysisrotor-body analysisrotor-fuselage analysisrotorcraft analysissecond-approximation analysissensitivity analysissignature analysissingle-degree-of-freedom analysissingle-sortie analysissingular perturbation analysissmall-perturbation analysisspectral analysisspectrum analysisstability analysisstatistical analysisstress analysisstructural analysisstructural dynamic analysistension analysistime dependent analysistime domain analysistradeoff analysistransient analysistrending analysistrim analysistrim point analysisV-g analysisvibration analysisviscoplastic analysisviscous/inviscid analysisWeibull analysisweight tradeoff analysiswind shear analysisX-ray analysis -
110 matrix
1. матрица <в математике, металлообработке, материаловедении>2. связующее4х4 matrixaerodynamic matrixaerodynamic damping matrixaerodynamic influence coefficient matrixaerodynamic stiffness matrixaerodynamics matrixaeroelastic matrixbanded matrixblock gain matrixcarbonised matrixcirculatory aerodynamic matrixclosed-loop matrixcoefficient matrixcolumn matrixcomplex matrixcompliance matrixcondensed matrixconfiguration matrixconsistent matrixconstant matrixconstitutive matrixcontrol matrixcontrol derivative matrixcontrol effectiveness matrixcontroller matrixCoriolis matrixcost matrixcovariance matrixdamping matrixdense matrixderivative matrixdiagonal matrixdifferentiating matrixdirection cosine matrixdownwash matrixdynamics matrixeigenvalue matrixeigenvector matrixepoxy matrixerror matrixfeed forward matrixfeedback matrixFisher's information matrixflexibility matrixFloquet transition matrixforce matrixfrequency matrixgain matrixgeneralized matrixgeneralized stiffness matrixgeneric configuration matrixHessenberg matrixHessian matrixidentity matrixinertia matrixinfluence matrixinfluence coefficient matrixinformation matrixinput matrixintegrating matrixinterelement compatible matrixinverse matrixJacobian matrixlateral-directional matrixlogic matrixmass matrixmeasurement matrixmeasurement noise covariance matrixmodal matrixmoment of inertia matrixnegative semidefinite matrixnoise intensity matrixnoncirculatory aerodynamic matrixnondiagonal matrixobservation matrixoutput matrixpentadiagonal matrixperiodic matrixperturbation matrixpilot transfer matrixplant matrixpositive semidefinite matrixpositive-definite matrixreal matrixresidual matrixreturn difference matrixrow matrixsensitivity matrixsequence-free transformation matrixsilicon carbide matrixskew symmetric matrixsolution matrixsparse matrixsquare matrixstability matrixstability derivative matrixstate matrixstate transition matrixstiffness matrixstress matrixstructural damping matrixstructure matrixsuperelement matrixsymmetric matrixsystem matrixtest matrixtime separation matrixtransfer matrixtransfer function matrixtransformation matrixtransition matrixtransmission matrixtransposed matrixtridiagonal matrixunitary matrixVandermonde matrixweightage matrixweighting matrix -
111 model
1. модель; макет; образец; эталон/ модельный/ моделировать2. модель; вариант; типactuator modelactuator disk modeladvanced development modelaerodynamic modelaeroelastic modelaeroelastically scaled modelair combat modelairplane modelairplane-like modelapproach modelarrow-wing modelatmospheric modelautopilot modelautorotation modelautothrottle modelBaldwin-Lomax modelbasic modelbeam modelbeam/lumped mass modelbiomorphic modelblowing modelbody alone modelbreadboard modelcable-mounted modelcargo load modelCFD modelcombustion modelcombustion-flow modelcommand modelcompensatory modelcomposite modelcompressibility modified modelcomputer modelcone-cylinder modelcone-finned modelconical-flow modelconsistent modelconstant amplitude fatigue modelconstitutive modelcontinuous-mass modelcontinuum modelcontroller modelcorrelation modelcounter-rotation modelcrack modelcrack growth modelcrack growth retardation modelcrossover modelcumulative damage modeldamage accumulation modeldamper modeldatabase modeldeterministic modeldevelopment-type modeldifferential-game modeldiscrete modeldistributed lift modeldisturbance modeldowndraft modeldrop modelDryden modelDugdale modeldynamically scaled modeldynamics modelenergy-conservation modelengagement modelengine modelengineering development modelerror modelfailure modelfatigue modelfilament modelfine grid modelfinite element modelfixed-base modelfixed-wing modelflow modelflutter modelflutter-suppression modelfour-input/four-output modelfractional derivative modelfracture modelfree to roll modelfree-flight modelfree-flying modelfree-spinning modelfreely flying modelfrequency-domain modelfull modelfull-order modelfull-span modelfull-span wing modelgame modelgeneric modelgeometric modelgeometrically scaled modelgravity modelgravity anomaly modelgust modelhalf-plane modelhalf-wing modelhigh-fineness-ratio modelhuman operator modelidentified modelilluminated modelinfinite-blade modelinput modelinstrumented modelinverse modelisolated wing modelk-e modelk-W modelkinematic modelkinetic modellarge-scale modellead-lag pilot modellead-only pilot modellinear modellongitudinal modellower-order modellumped parameter modellumped-mass modelMach-scaled modelmagnetically suspended modelmass-and-spring modelmass-spring modelMaxwell modelmembrane and rod modelmeteorological modelmicromechanical modelMiner-Palmgren damage modelminimum phase modelmissile modelmodal modelmomentum-conserved modelmoving modelmultiaxis modelmultidegree of freedom modelmultiloop modelmultiscale modelneuromuscular modelobservation modelover-parameterized modelparabolized Navier-Stokes modelpendulation modelperformance modelperturbation modelphenomenological modelphysical modelpilot-aircraft modelpilot-vehicle modelpiston modelpitch modelpitch-plunge modelpitch-lateral-directional modelplant modelplastic modelpneumodynamic modelpowered modelpowered-lift modelprecision modelprediction modelpreview modelproduction modelproperly parameterized modelpropfan modelpropulsion modelpure gain pilot modelquantized modelquasi-static modelR&M modelradar modelradial spring modelradio control modelradio controlled modelreal-world modelreduced order modelreference modelreflectivity modelreingestion modelreplica modelreplica-type modelrocket-propelled modelroll modelrotor-body modelrotorcraft modelscale modelscaled modelscattering modelself-consistent modelsemiempirical modelsemispan modelsemispan wing modelsensitivity modelsimulation modelsingle-axis modelsingle-body modelsingle-rotation modelspectrum fatigue modelspray modelstall modelstate modelstate space modelstatistical modelstiffness modelstochastic modelstress modelstructural modelstudy modelsupersonic cruise modeltask modelterrain modelthin-jet modelthree-degree-of-a-freedom modelthree-state modelthrust modeltire modeltransfer-function modeltransparent modeltruth modeltunnel-supported modelturbulence modeltwin-body modeltwo layer turbulence modeltwo-control modeltwo-degrees-of-freedom modeltwo-equation turbulence modelunquantized modeluntuned modelusage modelV/STOL modelvaporization modelvehicle stability modelvertical dynamic modelvestibular modelviscous/inviscid modelvisual cueing modelwake modelwake/wing modelwater tunnel modelWheeler retardation modelwind-tunnel modelwindshear modelwing-canard modelwing-rotor modelwireframe modelyaw model -
112 response
1. реакция; реагирование; отклик; ответ(ное действие); выходной сигнал; срабатывание; возмущенное движение <ЛА>/ реагировать; отвечать3. характеристика; зависимость; (динамические) характеристики4. приемистость < двигателя>5. эффективность < органа управления>response due to longitudinal stick commandresponse due to rudder inputresponse in sideslipresponse in turnresponse of stick position to stick forceresponse to turbulenceabrupt responseacceleration responseactuator responseaerodynamic responseaeroelastic responseaircraft responseairspeed responsealpha responsealpha-ramp responseamplitude responseangle-of-attack responseangular responseattitude to stick force responsebase-excitation responsebeam responseblade responsebrake responsebuffet responsebuffeting responseC* responsechord responseclosed-loop responseclosed-loop frequency responsecommand responsecommanded responsecomputer responsecomputer-triggered responsecontrol responsecontrol surface responsecontrol-system responsecoupled responsecrisp responsedamped responsedamper responsedead-beat responsedecoupled responsedisplacement responsedivergent responsediverging responsedoublet responseDutch roll responsedynamic responseedgewise responseelastic responseelastodynamic responseexperimental responsefilter responseflap responseflat amplitude responseflexible responseflight responseflight path to stick force frequency responseflight path responseflight path angle responseforced responsefracture responsefree responsefree-flight responsefrequency responsefull-scale responsefull-state responsefull-elevator responseg responseglideslope responsegust responseheave responseHeaviside responsehelicopter responsehigh-frequency responsehigh-overshoot responsehorizontal tail deflection responsehorizontal tail rate responseimpact responseimpulse responsein-phase responseindicial responseinelastic responseinstantaneous responsejamming responselanding gear responselarge-amplitude responselateral responselateral stick responselateral-directional responselead-lag responselift responselift coefficient responseload responseload factor responselong term responselong-period responselongitudinal responseloop frequency responselow-overshoot responsemaneuver responsemaneuvering responsemaximum control responsemid-frequency responsemodel responsemodel-following responsemotor responsenon-Gaussian responsenormal acceleration responsenz responseoff-axis responseon-axis responseopen-loop responseopen-loop frequency responseoscillatory responseout-of-phase responseoverly sensitive responsephase responsephugoid responsephysiologic responsepiloted responsepitch responsepitch axis responsepitch command responsepitch rate responsepitch attitude responsepointing responsepower responserate-independent plastic responseresonant responseresonator responserigid body mode responseroll responseroll axis responseroll rate responserolling responserolling axis responserough airfield responserudder pedal responsesharp responseshort term responseshort-period responseshort-period dynamic responseside-slip responsesideforce responsesimulated responsesimulator responsesluggish responsespectral responsespoiler responsesprung mass responsestatic responsesteady-state responsestep responsestep-function responsestrain responsestress responsestructural-acoustic responsesubharmonic responsethrust responsetime responsetorsional responsetracking responsetrailing-edge deflection responsetrailing-edge rate responsetransient responsetrim responseturbulence responseturbulence-excited responsetwo-per-rev responseundamped responseunstable responsevehicle responsevelocity responsevertical responsevestibular responsevibration responsevibrational responsevibratory responsewell-damped responsewing responsewing beam responsewing rock type responseyaw responseyawing response -
113 space
1. пространство; объем; областьaffine spacealtitude-Mach number spaceattitude parameter spacebaggage spacecomputational spacecoordinate spacedesign spacefunction spaceHilbert spaceimage spaceinertial spaceinfinite-dimensional spaceinter-rotor spacelanding spacelinear spacemaintenance spacemanufacturing spaceobject spaceparameter spaceparametric spacephysical spacesolution spacestand-up cabin spacestate spacestorage spacestress space -
114 Sullivan, Louis Henry
SUBJECT AREA: Architecture and building[br]b. 3 September 1856 Boston, Massachusetts, USAd. 14 April 1924 Chicago, Illinois, USA[br]American architect whose work came to be known as the "Chicago School of Architecture" and who created a new style of architecture suited specifically to steel-frame, high-rise structures.[br]Sullivan, a Bostonian, studied at the Massachusetts Institute of Technology. Soon he joined his parents, who had moved to Chicago, and worked for a while in the office of William Le Baron Jenney, the pioneer of steel-frame construction. After spending some time studying at the Ecole des Beaux Arts in Paris, in 1875 Sullivan returned to Chicago, where he later met and worked for the Danish architect Dankmar Adler, who was practising there. In 1881 the two architects became partners, and during the succeeding fifteen years they produced their finest work and the buildings for which Sullivan is especially known.During the early 1880s in Chicago, load-bearing, metal-framework structures that made lofty skyscrapers possible had been developed (see Jenney and Holabird). Louis H.Sullivan initiated building design to stress and complement the metal structure rather than hide it. Moving onwards from H.H.Richardson's treatment of his Marshall Field Wholesale Store in Chicago, Sullivan took the concept several stages further. His first outstanding work, built with Adler in 1886–9, was the Auditorium Building in Chicago. The exterior, in particular, was derived largely from Richardson's Field Store, and the building—now restored—is of bold but simple design, massively built in granite and stone, its form stressing the structure beneath. The architects' reputation was established with this building.The firm of Sullivan \& Adler established itself during the early 1890s, when they built their most famous skyscrapers. Adler was largely responsible for the structure, the acoustics and function, while Sullivan was responsible for the architectural design, concerning himself particularly with the limitation and careful handling of ornament. In 1892 he published his ideas in Ornament in Architecture, where he preached restraint in its quality and disposition. He established himself as a master of design in the building itself, producing a rhythmic simplicity of form, closely related to the structural shape beneath. The two great examples of this successful approach were the Wainwright Building in St Louis, Missouri (1890–1) and the Guaranty Building in Buffalo, New York (1894–5). The Wainwright Building was a ten-storeyed structure built in stone and brick and decorated with terracotta. The vertical line was stressed throughout but especially at the corners, where pilasters were wider. These rose unbroken to an Art Nouveau type of decorative frieze and a deeply projecting cornice above. The thirteen-storeyed Guaranty Building is Sullivan's masterpiece, a simple, bold, finely proportioned and essentially modern structure. The pilaster verticals are even more boldly stressed and decoration is at a minimum. In the twentieth century the almost free-standing supporting pillars on the ground floor have come to be called pilotis. As late as the 1920s, particularly in New York, the architectural style and decoration of skyscrapers remained traditionally eclectic, based chiefly upon Gothic or classical forms; in view of this, Sullivan's Guaranty Building was far ahead of its time.[br]BibliographyArticle by Louis H.Sullivan. Address delivered to architectural students June 1899, published in Canadian Architecture Vol. 18(7):52–3.Further ReadingHugh Morrison, 1962, Louis Sullivan: Prophet of Modern Architecture.Willard Connely, 1961, Louis Sullivan as He Lived, New York: Horizon Press.DY -
115 principles of safety integration
принципы комплексной безопасности
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[Директива 98/37/ЕЭС по машинному оборудованию]Параллельные тексты EN-RU
1.2.2. Principles of safety integration
(a) Machinery must be so constructed that it is fitted for its function, and can be adjusted and maintained without putting persons at risk when these operations are carried out under the conditions foreseen by the manufacturer.
The aim of measures taken must be to eliminate any risk of accident throughout the foreseeable lifetime of the machinery, including the phases of assembly and dismantling, even where risks of accident arise from foreseeable abnormal situations.
(b) In selecting the most appropriate methods, the manufacturer must apply the following principles, in the order given:
— eliminate or reduce risks as far as possible (inherently safe machinery design and construction),
— take the necessary protection measures in relation to risks that cannot be eliminated,
— inform users of the residual risks due to any shortcomings of the protection measures adopted, indicate whether any particular training is required and specify any need to provide personal protection equipment.
(c) When designing and constructing machinery, and when drafting the instructions, the manufacturer must envisage not only the normal use of the machinery but also uses which could reasonably be expected.
The machinery must be designed to prevent abnormal use if such use would engender a risk.In other cases the instructions must draw the user’s attention to ways — which experience has shown might occur — in which the machinery should not be used.
(d) Under the intended conditions of use, the discomfort, fatigue and psychological stress faced by the operator must be reduced to the minimum possible taking ergonomic principles into account.
(e) When designing and constructing machinery, the manufacturer must take account of the constraints to which the operator is subject as a result of the necessary or foreseeable use of personal protection equipment (such as footwear, gloves, etc.).
(f) Machinery must be supplied with all the essential special equipment and accessories to enable it to be adjusted, maintained and used without risk.
[DIRECTIVE 98/37/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL]
1.1.2. Принципы комплексной безопасности.
(a) Машинное оборудование должно конструироваться так, чтобы оно выполняло заранее предусмотренные функции, и чтобы была возможность производить их наладку и техническое обслуживание, не подвергая персонал риску во время осуществления этих операций в условиях, предусмотренных изготовителем.
Целью принимаемых мер является устранение любого риска несчастного случая в течение прогнозируемого периода срока службы машинного оборудования, включая фазы сборки и демонтажа, а также когда несчастный случай может произойти вследствие возникновения чрезвычайных обстоятельств, которые невозможно было предвидеть заранее.
(b) Выбирая наиболее подходящие меры, изготовитель должен применять следующие принципы в указанном порядке:
- по возможности устранить или сократить риски (сделать изначально безопасными как конструкцию, так и собранное машинное оборудование);
- принять все необходимые меры защиты против рисков, которые не могут быть устранены;
- информировать пользователей о возможных остаточных рисках, которые могут иметь место из-за недостаточности принятых мер защиты, с описанием всей необходимой специальной подготовки персонала и всех средств личной защиты, которыми его необходимо снабдить.
(c) При конструировании и производстве машинного оборудования, а также при составлении инструкций изготовитель должен предусмотреть не только обычное использование машинного оборудования, но и потенциальное его использование.
Машинное оборудование должно быть сконструировано таким образом, чтобы предотвратить ненадлежащее его использование, если оно повлечет за собой возникновение риска. В прочих случаях инструкции должны обратить внимание пользователя на то, каким образом машинное оборудование не следует использовать (на основании уже имеющегося опыта).
(d) При надлежащих условиях использования необходимо сократить до минимума всевозможные неудобства, чувство усталости и психологического стресса, которые испытывает оператор, принимая при этом в расчет принципы эргономики.
(e) При конструировании и производстве машинного оборудования изготовитель обязан принимать во внимание скованность и ограниченность движений оператора, которые являются следствием необходимых или предусмотренных средств личной защиты (таких как специальная обувь, перчатки и т.п.).
(f) Машинное оборудование должно быть снабжено всем основным специальным оборудованием, необходимым для пуска, текущего обслуживания и безопасного использования.
[Официальный перевод]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > principles of safety integration
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116 ecological assessment
экологическая оценка
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
ecological assessment
Ecological assessment consists in monitoring the current and changing conditions of ecological resources from which success or failure of the ecosystem can be judged without bias; understanding more fully the structure and function of ecosystems in order to develop improved management options; developing models to predict the response of ecosystems to changes resulting from human-induced stress from which possible ecosystem management strategies can be assessed and assessing the ecological consequences of management actions so that decisionmakers can best understand the outcomes of choosing a particular management strategy. (Source: ESEPA)
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Англо-русский словарь нормативно-технической терминологии > ecological assessment
См. также в других словарях:
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