-
1 full-load running
Техника: ход при полной нагрузке -
2 full-load running
English-Russian dictionary of mechanical engineering and automation > full-load running
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3 full-load running
ход при полной нагрузке; ход с полной загрузкой (напр. кузова) -
4 full-load running
English-Russian dictionary of machine parts > full-load running
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5 full-load steam pressure
pressure zone — зона повышенного давления; зона нагнетания
English-Russian dictionary on nuclear energy > full-load steam pressure
-
6 full-load-up running power
Универсальный англо-русский словарь > full-load-up running power
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7 running with full load
Железнодорожный термин: работа с полной нагрузкойУниверсальный англо-русский словарь > running with full load
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8 running with full load
Англо-русский железнодорожный словарь > running with full load
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9 running
пробег; рейс; ход; прогон; обкатка (напр. нового автомобиля); работа; работа двигателя машины; выезд; вращение (машины); эксплуатация; эксплуатация машины; функционирование; перегонка; перекачка; налив (нефтепродуктов); фракция; погон (нефтяной); ведение плавки; паровое дутьё (газогенератора); выполнение; прогон (программы); II подвижной; работающий; текущий; эксплуатационный; действующий на ходу; II на ходу- running adjuster - running-and-pulling tool - running-away - running-board antenna - running cam - running capacity - running center - running center chuck - running characteristic - running charges - running check - running clearance - running conditions - running contact - running cost - running current - running cycle - run data - running design changes - running diagram - running discrete transform - running-down - running-down clause - running-down time - running dry - running fail-safe system - running feedrate - running hot - running hours - running-in - running-in ability - running-in coating - running-in contact - running-in error - running-in failure - running-in layer - running-in mesh - running-in of engine - running in parallel - running-in period - running-in service - running-in speed - running-in surface - running-in test - running-in time - running-in wear - running inductance - running leg - running light - running-light test - running line - running line end load - running line end pull - running loss - running maintenance - running measure - running meter - metre - running mold - running no-load - running notch - running notch indicator - running-off - running-off side - running offset - running-on - running-on side - running packing - running performance - running plank - running program - running properties - running reliability - running resistance - running reverse - running rigging - running sample - running sand - running schedule - running screed - running service - running shaft - running shed - running soil - running speed - running stream - running surface - running temperature - running thread - running time - running time factor - running time only - running times - running to schedule - running torque - running trials - running trim - running true - running unloaded - running-up test - running voltage - running water - running weight - running wheel - anchor line running - asynchronous running - dry running - first running - forced-circulation running - full-speed running - good running - left-hand running - out-of-true running - proof running - right-hand running - scheduled running - ship running - shunt running - side running - silent running - single-direction running - single-track running - slow running - smooth running - stable running - steady running - synchronous running - train running - unattended running - unmanned running - unstable running - vibration-free running -
10 running
1) работа; ход || работающий; действующий на ходу (см. тж run)2) эксплуатация3) обкатка•- bad running
- forced-circulation running
- forward running
- free running
- full-load running
- good running
- irregular running
- light running
- nut running
- out-of-true running
- overnight running
- proof running
- steady running
- synchronous running
- unattended running
- unmanned running
- vibration-free runningEnglish-Russian dictionary of mechanical engineering and automation > running
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11 load
1. груз; нагрузка; загрузка || грузить; нагружать; загружать2. заряд; забойка ( скважинного заряда водой или буровым раствором) || заряжать3. pl. отдельные блоки передвижного оборудования— bit load— net load
* * *
нагрузка; загрузка
* * *
1. нагрузка, напряжение; блок ( оборудования)2. заряд3. грузить, нагружать; заряжать
* * *
1. мощность2. нагрузка; заряжать; загружать программу (компьют.)
* * *
1) нагрузка; загрузка; груз || грузить; наливать ( нефть в танкеры)2) заряд || заряжать3) забойка ()4) блок ( оборудования)•- balancing load
- beam load
- bearing load
- bit load
- bottom load
- breaking load
- buckling load
- cable load
- calculated load
- casing load
- collapse load
- collapsing load
- compression load
- concentrated load
- continuous load
- cracking load
- crashing load
- cyclic load
- damaging load
- dead load
- dead load of derrick
- dead-line load
- derrick collapsing load
- destructive load
- dynamic load
- eccentric bit load
- effective wind load
- emergency load
- engineering service load
- equivalent load on derrick
- explosive load
- even load
- failure load
- fatigue load
- filter load
- full load
- gust load
- hoisting load
- hole load
- hook load
- impact load
- impact allowance load
- imposed load
- impulsive load
- intermittent load
- knife-edge load
- light load
- line load
- linear load
- live load
- maximum load
- maximum permissible load
- normal load
- off-center load
- operational load
- overburden load
- permanent load
- pipe setback load
- point load
- polished rod load
- pulsating load
- repeated load
- resultant load
- running line end load
- safe load
- safe bearing load
- sedimentary load
- service load
- shock load
- single-point load
- steady load
- strainer load
- sucker-rod load
- sustained load
- tensile load
- test failure load
- thrust load
- tilting load
- torque load
- torsional load
- total load
- total bit load
- total critical load
- transient shock wave load
- ultimate load
- unbalanced load
- uncompensated load
- uniform load
- uniformly distributed load
- unit load
- unit bit load
- unit wind load
- useful load
- variable load
- varying load
- vibratory shock load
- wellhead landing load
- working load
- yield load* * *• блок• забойка• наливать -
12 load
2) нагрузка, усилие || нагружать3) кфт. заряжать5) съём ( стекломассы)6) гидр. наносы8) закладка ( заготовки в приспособление) || закладывать9) хим. вводить ( ингредиенты)11) заправка (напр. ленты) || заправлять (напр. ленту)12) вчт. загрузка (напр. программы) || загружать (напр. программу)•load per unit surface — нагрузка на единицу поверхности (охлаждения, нагрева),to apply load — прикладывать нагрузку;to carry load — нести нагрузку; выдерживать нагрузку;to cast load to side — производить поперечный перекос отвала ( бульдозера);to distribute load — распределять нагрузку;to load eccentrically — нагружать ( элемент) внецентренно, прикладывать нагрузку с эксцентриситетом;to impose load — прикладывать нагрузку;to load in bulk — грузить навалом или насыпью;to resist load — выдерживать нагрузку;to support load — нести нагрузку; выдерживать нагрузку;to sustain load — выдерживать нагрузку;to take up load — воспринимать нагрузку;to load up — нагружать;to load with film — заряжать киноплёнкой-
acceleration shock load
-
active load
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actual load
-
additional load
-
aerodynamic load
-
air-conditioning load
-
aircraft useful load
-
allowable load
-
alternate load
-
annual maximum load
-
appliance load
-
applied bearing load
-
artificial load
-
assumed load
-
auxiliary load
-
axial load
-
axle load
-
backhaul load
-
balanced load
-
balancing load
-
ball load
-
base load
-
basic load
-
batch load
-
bed load
-
bending load
-
blast load
-
bottom load
-
brake load
-
breaking load
-
buckling load
-
buff load
-
bulk load
-
calculated load
-
capacitance load
-
car load
-
carbon burning load
-
central load
-
characteristic load
-
circulating load of impurities
-
clocked load
-
coaxial dry load
-
coaxial load
-
cold-rolling load
-
collapse load
-
combined load
-
commercial load
-
complete wagon load
-
complex load
-
compressive load
-
compressor load
-
computational load
-
concentrated load
-
condensive load
-
connected load
-
continuous load
-
controllable load
-
cooling load
-
crippling load
-
crush load
-
crushing load
-
current load
-
cutter load
-
cyclic load
-
daily load
-
dead load
-
dead-weight load
-
design load
-
design ultimate load
-
direct-acting load
-
direct load
-
discontinuous load
-
dissipative-wall waveguide load
-
distributed load with linear variation
-
distributed load
-
docking load
-
domestic load
-
down-line load
-
draft end load
-
draft load
-
drawbar load
-
dummy load
-
dust load
-
dwelling load
-
dynamic load
-
earth load
-
earthquake load
-
eccentric load
-
effective load
-
electric heating load
-
electrical load
-
electric load
-
emergency load
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end load
-
equivalent load
-
even load
-
excessive load
-
excess load
-
explosive load
-
exponential load
-
external load
-
factored load
-
failure load
-
falling load
-
fictitious load
-
fixed load
-
flight load
-
floor load
-
fluctuating load
-
fractional load
-
fracture load
-
frozen load
-
full load
-
gradually applied load
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gross load
-
ground load
-
guarantee load
-
gust load
-
heat load
-
heating load
-
heat-transfer load
-
high-power load
-
high-resistance load
-
hole load
-
hydraulic thrust load
-
hydrodynamic load
-
hydrostatic load
-
ice load
-
imaginary load
-
impact load
-
imposed load
-
impulsive load
-
impulse load
-
increment load
-
induced docking loads
-
inductance load
-
industrial load
-
industrial steam load
-
inertia load
-
initial program load
-
input load
-
instability load
-
installed load
-
instantaneous load
-
intermittent load
-
ionic load
-
irregular load
-
irregularly distributed load
-
jettisoned load in flight
-
knife-edge load
-
lagging load
-
landing load
-
lane load
-
latent heat load
-
lateral load
-
leading load
-
less-than-car load
-
light load
-
lighting load
-
limit load
-
limit operating load
-
linear load
-
linearly varying load
-
live load
-
low-resistance load
-
lumped load
-
maneuvering load
-
mass load
-
matched load
-
maximum safe load
-
midspan load
-
miscellaneous load
-
mobile load
-
moisture load
-
momentary load
-
movable load
-
multichannel load
-
net load
-
noncentral load
-
noncutting load
-
noninductive load
-
nonlinear load
-
nonreactive load
-
nonreflecting load
-
normal running load
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occasionally applied load
-
off-clearance load
-
off-peak load of power plant
-
on-peak load
-
operating load
-
optimum load
-
ore load
-
oscillating load
-
oscillatory load
-
out-of-balance load
-
out-of-gage load
-
out-of-length load
-
output load
-
overall load
-
overhauling load
-
overlength load
-
overtolerance load
-
palletized load
-
palletized work load
-
part throttle load
-
partial load
-
part load
-
peak load
-
periodic load
-
permanent load
-
permissible load
-
phantom load
-
piezoelectric load
-
pilot work load
-
plant load
-
plate load
-
point load
-
pollutant load
-
pop-in load
-
power load
-
power system load
-
predetermined maximum cutting load
-
prestressing load
-
program load
-
proof load
-
pulsating load
-
punch through load
-
radial load
-
railway load
-
rated load
-
reactive load
-
real load
-
rectifier load
-
reflecting load
-
refrigeration load
-
repeated load
-
residential load
-
resistance load
-
reverse torque load
-
reversed load
-
rolling load
-
rotating bending load
-
rupturing load
-
safe load
-
salt load
-
Schottky diode load
-
secondary load
-
sediment load
-
seismic load
-
self-mass load
-
sensible heat load
-
service load
-
setting load
-
sewage load
-
shearing load
-
shear load
-
shock load
-
side load
-
single load
-
skip load
-
sleet load
-
sliding load
-
snow load
-
specific load
-
specified load
-
stalling load
-
static load
-
steady load
-
storage load
-
structural load
-
suddenly applied load
-
sudden load
-
superimposed load
-
support load
-
support yield load
-
surcharge load
-
surface load
-
sustained load
-
symmetrical load
-
temperature load
-
tensile load
-
terminal load
-
test load
-
thermal load
-
through load
-
tilting load
-
tool/workpiece load
-
top load
-
torque load
-
torsional load
-
total load
-
traction load
-
tractional load
-
traffic load
-
transistor load
-
traveling load
-
treating load
-
trial load
-
triangular load
-
true load
-
twisting load
-
ultimate load
-
unbalanced load
-
uniaxial load
-
uniform load
-
uniformly distributed load
-
unit load
-
unitized load
-
unmatched load
-
up load
-
useful load
-
variable load
-
vehicular load
-
wafer load
-
water load
-
waveguide load
-
wheel load
-
wind load
-
wing load
-
work load
-
working load
-
yield load -
13 running torque
1. крутящий момент при установившемся режиме работы2. вращающий момент -
14 N+1
- принцип резервирования N+1
принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]EN
N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]Параллельные тексты EN-RU
N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]N + 1 Redundancy ensures maximum uptime and continuous availability
Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования
Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.
Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.
N+1 redundancy means running one extra module than will support your full load.
В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.
Все модули электропитания работают параллельно и несут одинаковую нагрузку.
Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.In this way, all of the modules support one another.
Таким образом, каждый модуль подстраховывает другие модули
For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.
Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.
If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.Тематики
EN
- N+1
- N+1 configurability
- N+1 redundancy
- need plus one
Англо-русский словарь нормативно-технической терминологии > N+1
-
15 N+1 configurability
- принцип резервирования N+1
принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]EN
N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]Параллельные тексты EN-RU
N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]N + 1 Redundancy ensures maximum uptime and continuous availability
Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования
Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.
Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.
N+1 redundancy means running one extra module than will support your full load.
В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.
Все модули электропитания работают параллельно и несут одинаковую нагрузку.
Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.In this way, all of the modules support one another.
Таким образом, каждый модуль подстраховывает другие модули
For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.
Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.
If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.Тематики
EN
- N+1
- N+1 configurability
- N+1 redundancy
- need plus one
Англо-русский словарь нормативно-технической терминологии > N+1 configurability
-
16 N+1 redundancy
- принцип резервирования N+1
принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]EN
N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]Параллельные тексты EN-RU
N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]N + 1 Redundancy ensures maximum uptime and continuous availability
Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования
Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.
Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.
N+1 redundancy means running one extra module than will support your full load.
В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.
Все модули электропитания работают параллельно и несут одинаковую нагрузку.
Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.In this way, all of the modules support one another.
Таким образом, каждый модуль подстраховывает другие модули
For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.
Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.
If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.Тематики
EN
- N+1
- N+1 configurability
- N+1 redundancy
- need plus one
Англо-русский словарь нормативно-технической терминологии > N+1 redundancy
-
17 need plus one
- принцип резервирования N+1
принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]EN
N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]Параллельные тексты EN-RU
N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]N + 1 Redundancy ensures maximum uptime and continuous availability
Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования
Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.
Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.
N+1 redundancy means running one extra module than will support your full load.
В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.
Все модули электропитания работают параллельно и несут одинаковую нагрузку.
Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.In this way, all of the modules support one another.
Таким образом, каждый модуль подстраховывает другие модули
For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.
Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.
If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.Тематики
EN
- N+1
- N+1 configurability
- N+1 redundancy
- need plus one
Англо-русский словарь нормативно-технической терминологии > need plus one
-
18 condition
1) условие || обусловливать2) состояние || поддерживать (приводить в) определённое состояние3) положение; ситуация4) мн. ч. режим5) мн. ч. параметры7) выдерживать (напр. древесину)8) горн. подвергать обработке реагентами перед флотацией9) текст. испытывать степень влажности•conditions beyond the experience — условия ( полёта), выходящие за рамки опыта ( пилота);-
abnormal operating conditions
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accident condition
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actual operating conditions
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added-value condition
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adjoint boundary condition
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adverse conditions
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airworthy condition
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alert condition
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ambient conditions
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anticipated operating conditions
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application conditions
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as-cast condition
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as-deposited condition
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as-drawn condition
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as-extruded condition
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as-forged condition
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as-received condition
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as-rolled condition
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as-welded condition
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asymmetrical conditions
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asynchronous condition
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atmospheric conditions
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average operating conditions
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balanced conditions
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beet cutting conditions
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boundary condition
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breaking conditions
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burning conditions
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busy condition
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characteristic condition
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chemistry conditions
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close conditions
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cold furnace condition
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compatibility condition
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condition of indeterminacy
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condition of static equilibrium
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conjugating boundary condition
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consistency condition
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contact conditions
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continuity condition
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continuous conditions
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controlled atmosphere conditions
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controlled conditions
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cost optimum condition
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crack arrest conditions
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crack extension conditions
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crew physical condition
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criticality conditions
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current yield condition
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cutting conditions
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deadlock condition
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debugging conditions
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Derichlet's boundary condition
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design conditions
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dirt load condition
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disabled condition
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docking initial contact conditions
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don't care condition
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downstream stagnation conditions
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dry-bulb conditions
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dust condition
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dyebath conditions
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dynamic conditions
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elliptic boundary condition
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emergency condition
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end fixity condition
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energized condition
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environmental conditions
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equilibrium condition
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equilibrium fuel burnup conditions
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equilibrium xenon conditions
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equipment-damaging condition
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error condition
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exception condition
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existence condition
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extreme conditions
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fault conditions
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faulty condition
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field condition
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firing conditions
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flight conditions
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flow conditions
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fracture arrest conditions
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fracture conditions
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free surface conditions
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freezing conditions
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friction boundary conditions
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frost buildup conditions
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full power equilibrium xenon conditions
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full-load conditions
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fusing condition
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gap condition
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general yielding conditions
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geological conditions
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geometric boundary condition
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geotechnical conditions
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governing conditions
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grinding conditions
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grip conditions
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hazardous weather conditions
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high-resistance fault conditions
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highresistance fault conditions
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homogeneous boundary conditions
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hostile conditions
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humid condition
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humidity conditions
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hunting conditions
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hygiene and sanitary conditions
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hypobaric conditions
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ice conditions
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ice-bound conditions
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icing conditions
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impact conditions
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induction condition
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initial condition
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in-lock condition
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in-pile conditions
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in-place conditions
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in-plane boundary conditions
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in-situ conditions
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instrument meteorological conditions
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jump conditions
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karstic conditions
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landing conditions
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limiting condition
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living conditions
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load conditions
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loading condition
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local condition
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local flow conditions
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logical condition
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lowest weather conditions
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low-light-level conditions
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machine conditions
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machining conditions
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making conditions
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managed conditions
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meteorological conditions
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mill conditions
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mining and geological conditions
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mixed-boundary conditions
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moding conditions
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moisture conditions
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motor load condition
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mutual-testing conditions
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natural boundary condition
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natural conditions
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near singing conditions
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necessary condition
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Newmann's boundary condition
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Newton's boundary condition
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no-load conditions
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nominal conditions
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normal conditions
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off condition
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off-design conditions
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off-peak conditions
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on condition
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on-peak conditions
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on-speed conditions
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open-conductor operating conditions
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operated condition
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operating condition
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operational conditions
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operation conditions
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out-of-balance condition
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out-of-round condition
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out-of-step conditions
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out-of-tolerance conditions
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overaged condition
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overheating conditions
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overload conditions
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overpoled condition
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overtempered condition
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oxidizing conditions
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peak load conditions
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periodicity condition
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permit conditions
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petrophysical conditions
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plane-strain condition
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plant conditions
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poor ground condition
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postfault conditions
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precipitation conditions
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prefault conditions
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process conditions
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program stop condition
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pulling condition
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pulse conditions
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pump-starving filter condition
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quenched condition
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quiescent condition
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rated conditions
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reaction conditions
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ready condition
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reductive conditions
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reference friction conditions
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refrigerating conditions
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rigidity condition
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roof conditions
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room conditions
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running conditions
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runoff conditions
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safety conditions
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self-testing conditions
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semistalled condition
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service conditions
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short-circuit conditions
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side condition
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simulated conditions
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slipping condition
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stability conditions
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stabilized condition
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stagnant conditions
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standard condition
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standby condition
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starting conditions
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start-oscillation condition
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static conditions
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static equilibrium conditions
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steady-state condition
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steady condition
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storage conditions
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stream conditions
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strength condition
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stress boundary conditions
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stress condition
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sufficient condition
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surface condition
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symmetrical conditions
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takeoff conditions
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technical conditions
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temperature conditions
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temper-brittle condition
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terminal conditions
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terrain undercarriage working condition
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test conditions
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test-bed conditions
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thermal boundary conditions
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thermal conditions
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thermodynamic condition
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traction-free boundary conditions
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tractor underfoot condition
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transient condition
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trial conditions
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turbulent conditions
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turn-down conditions
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unbalanced conditions
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unballasted condition
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under no-load conditions
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unenergized condition
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unmanned conditions
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unpredictable conditions
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unsteady-state condition
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unsteady condition
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upstream stagnation conditions
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usage conditions
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valve flow condition
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viewing conditions
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visibility reduced condition
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visual meteorological conditions
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wait condition
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weather conditions
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well production conditions
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wet-bulb conditions
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wind conditions
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wing icing conditions
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winter conditions
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working condition
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worst conditions
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zero-wind condition -
19 time
1) время || измерять [определять\] время; отмечать время; хронометрировать2) период [интервал\] времени4) срок; длительность, продолжительность5) темп; такт6) хронировать; синхронизировать; осуществлять привязку по времени7) регулировать взаимное положение фаз периодических процессов•time on — время включения; продолжительность пребывания во включенном состоянии;time to failure — наработка на отказ;time to repair — 1. наработка до ремонта 2. время ремонта-
absolute time
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acceleration time
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acceptance time
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access time
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acquisition time
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action time
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active repair time
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actual airborne time
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actual time
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actuation time
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addition time
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add time
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addressing time
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administrative time
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advance time
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ageing time
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aging time
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air cutting time
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air time
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alignment time
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annealing time
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apparent time
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arcing time
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arc time
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arrestment time
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arrival time
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assembly time
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astronomical time
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atomic time
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attack time
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attenuation time
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average time
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averaging time
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backup time
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baking time
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base transit time
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basin lag time
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batch-free time
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block-to-block time
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blowing time
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braking time
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break contact release time
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bridging time
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bubble penetration time
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bubble waiting time
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build up time
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burning time
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burn-off time
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burst time
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caging time
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calendar time
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capture time
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carbonizing time
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carrier transit time
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cell production time
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chambering time
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changeover time
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characteristic time
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charge time
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check-in time
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chill time
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chock-to-chock time
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civil time
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clear time
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clearing time
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clipping time
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closing time
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compilation time
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computer time
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conditioning time
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contact time
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continuous recording time
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continuous time
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conversion time
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cooking time
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cool time
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critical time
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cumulative cutting time
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cumulative operating time
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cure time
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current impulse time
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current time
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current-rise time
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cutoff time
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cutting time
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cutting-in time
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cycle time
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damping time
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data-hold time
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daylight saving time
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dead time
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debatable time
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debugging time
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debug time
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decay time
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deceleration time
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definite minimum inverse operating time
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definite operating time
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deionization time
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delay time
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departure time
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detention time
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development time
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discharge time
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disconnection time
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discrete time
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divide time
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door-to-door time
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down time
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drift-transit time
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drift time
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drive time
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dropout time
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dust-free time
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dwelling time
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dwell time
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early finish time
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early start time
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effective time
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elapsed time
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emptying time
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engine ground test time
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engine operating time
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engine run-in time
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engineering time
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entry time
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ephemeris time
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erase time
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error-free running time
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estimated elapsed time
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estimated time of checkpoint
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execution time
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exposure time
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extinction time
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fall time
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fast time
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fault clearing time
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fault time
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fetch time
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firing time
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first copy-out time
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flash-off time
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flight block time
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flight dual instruction time
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flight duty time
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flight time
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flooding time
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floor-to-floor time
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flotation time
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flushing time
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flyover time
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forepumping time
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forge time
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freezing time
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fuel-doubling time
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fueling time
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fuel-residence time
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full operating time
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fusing time
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gate-controlled delay time
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gate-controlled rise time
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gate-controlled turn-on time
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gate-controlled-turn-off time
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gating time
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generation time
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Greenwich mean time
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gross-coking time
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ground operating time
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group delay time
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guard time
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gyro erection time
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handling time
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heat time
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high-water time
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holding time
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hold time
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hold-off time
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idle running time
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idle time
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ignition time
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impulse front time
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impulse tail time
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incidental time
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ineffective time
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initial setting time
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in-pile time
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installation time
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instruction time
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instrument flight time
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interaction time
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interarrival time
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interpulse time
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interrupting time
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intrinsic time
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ionization time
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keeping time
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lag time of flow
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lag time
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landing gear extension time
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latency time
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lead time
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leading-edge time
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life time
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local time
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lockage time
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locking time
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low-water time
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machine time
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maintenance time
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make contact operating time
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make contact release time
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make time
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make-break time
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manipulation time
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Markov's time
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Markov time
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maximum permissible short-circuit clearing time
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mean time between failures
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mean time between power failures
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melting time
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mill delay time
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mill pacing time
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mixing time
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modal transit time
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monolayer time
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moving time
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multiplication time
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near-real time
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Newtonian time
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no-load running time
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nonreal time
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normally-closed contact release time
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nuclear time
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nucleation time
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object time
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observation time
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off time
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off-stream time
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on time
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on-stream time
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opening time
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operating time
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operator's time
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optimized contact time
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orbit phasing time
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outage time
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output voltage setup time
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overall cycle time
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paralysis time
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partial operating time
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particle residence time
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peak-load time
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periodic time
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pickup time
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plasma time
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playing time
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poison override time
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predetermined time
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preroll time
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preset time
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press down time
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pressure resistance time
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prestrike time
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production pitch time
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productive time
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program fetch time
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program testing time
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propagation delay time
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propagation time
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proper time
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pulling-out time
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pull-out time
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pull-in time
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pull-up time
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pulse fall time
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pulse rise time
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pulse time
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ramp time
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reaction time
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read time
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readiness time
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reading readout time
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reading time
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real time
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recession time
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reclosing dead time
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reclosing time
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recovery time
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reference time
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release time
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remaining life time
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repair time
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reset time
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residence time
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response time
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restoration time
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retention time
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retrace time
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retrieval time
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reverberation time
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reversal time
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rewind time
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rig time
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rig total operating time
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rig-down time
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rig-up time
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rise time
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rolling time
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roughing time
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round-trip time
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route-setting time
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run time
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run-down time
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running time
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running-down time
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running-in time
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run-up time
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scheduled departure time
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screen time
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search time
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seed-free time
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seek time
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selection time
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self-extinction time
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service time
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serviceable time
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servicing time
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set time
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setting time
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settling time
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setup time
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shelf time
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shipping time
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ship time
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shot time
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sidereal time
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signal modulation time
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signal transit time
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simulated time
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sludging time
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snubbing time
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soaking time
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solar time
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sowing time
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specified time
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spending time
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spray-on time
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stabilization time
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standard time
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standing time
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starting time
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start time
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station time
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stay-down time
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stock-descent time
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stop time
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stopping time
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storage time
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subtraction time
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subtract time
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succession time
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summer time
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sweep time
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switchgear operating time
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switching time
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switchover time
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tack-free time
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takedown time
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tap-to-tap time
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task time
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thermal death time
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throughput time
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time of arrival
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time of coincidence
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time of delivery
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time of fall
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time of flight
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time of persistence
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time of swing
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tool-in-cut time
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track time
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traffic release time
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trailing-edge time
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trailing time
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transfer time
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transient time
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transit time
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transition time
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translating time
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transmission time
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traveling time
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travel time
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trigger time
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trip time
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troubleshooting time
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true time
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turnaround time
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turn-off time
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turn-on time
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turnover time
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turnround time
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unit time
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universal time
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up time
-
useful time
-
vehicle-off-the-road time
-
viewing time
-
waiting time
-
wait time
-
waiting-on-cement time
-
warm-up time
-
wavefront time
-
wavetail time
-
write time
-
Zebra time
-
zero time
-
zonal time
-
Zulu time -
20 characteristic
1. характеристика || характеристический2. характерный, типичный3. pl. параметры
* * *
1. характеристика; параметр2. особенность; свойство; характерная черта
* * *
* * *
характеристика, параметр
* * *
1) характеристика; параметр2) особенность; свойство; характерная черта•- aerodynamic characteristic
- afterfailure characteristic
- amplitude characteristics
- amplitude characteristics of event
- array characteristic
- availability characteristic
- chemical oil characteristic
- conditional characteristic
- corrosive characteristics
- crack propagation characteristic
- cracking characteristic of catalyst
- detonation characteristic
- disintegration characteristic of rock
- distillation characteristic
- drilling mud characteristics
- external characteristic
- failure characteristic of rock
- feed-off characteristic
- field characteristic
- filtration characteristics
- flooding characteristics
- flow characteristics
- fluid-bearing characteristic of reservoir
- formation characteristic
- gas characteristic
- geophone characteristic
- hoisting characteristic of drilling rig
- geological-and-physical reservoir characteristic
- geomorphologic characteristic
- geophysical log characteristic
- hydrochemical characteristic
- hydrogeological characteristic
- identifiable characteristic
- kinetic characteristic
- lateral penetration characteristic
- lithofacies characteristic
- lithologic characteristic of reservoir
- lithologic-and-petrographic characteristic
- load characteristic
- knock characteristic of gasoline
- neutron-slowing-down characteristic
- operating characteristic
- operational characteristic
- performance characteristic
- petroleum characteristic
- petrophysical characteristic
- pore volume characteristic
- priming characteristics
- producing characteristics
- production characteristics
- pulling characteristic of drawworks
- pump priming characteristic
- radial investigation characteristic
- reliability characteristic
- repairability characteristic
- reservoir characteristics
- rheological characteristic
- rock characteristic
- running characteristic
- safety characteristic
- sea bottom characteristic
- service characteristic
- signal characteristic
- solidifying characteristics
- starting characteristic
- steady-state characteristic
- survival characteristic
- switching characteristics
- technical characteristics
- thermal characteristic
- time-to-failure characteristic
- torque characteristic
- towing characteristic
- travel time characteristics
- tribotechnical characteristic
- trouble-free characteristic
- velocity characteristic
- vertical response characteristic
- vibration characteristic
- wavelet characteristics
- wear characteristic
- welding characteristics
- well characteristic
- well-producing characteristics
- working characteristic* * *Англо-русский словарь нефтегазовой промышленности > characteristic
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