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temperature changes in a transducer(passive) caused bythe dimensional changes
temperature changes in the structure(passive) caused bydimensional changes
thermal expansion or contraction of a pipeline , duct , or vessel while containing the system pressure(passive) caused bydimensional changes
thermal expansion and contraction of pipelines , pipes , containers , etc . , or to compensate pipelines , conduits , and containers(passive) caused bydimensional changes
Only 2 % moisture absorptioncan causedimensional changes
moisture absorption and the like(passive) caused bydimensional changes
moisture absorption and high temperature(passive) caused bydimensional changes
thermal growth and contraction as the gas temperature changes(passive) caused bydimensional changes
moisture absorption , and bending , etc(passive) caused bydimensional change
temperature fluctuations and ( 2(passive) caused bydimensional changes
thermal expansion and contraction of pipelines , pipes , containers , etc . , or to compensate axial , lateral , and angular displacements of pipelines , conduits , containers , and the like(passive) caused bydimensional changes
other influences such as variations in temperature(passive) can also be caused byDimensional changes
thermal expansion effects(passive) caused bydimensional changes
thermal expansion of the window(passive) caused bythe dimensional changes
temperature change(passive) caused bydimensional change
temperature and humidity variations(passive) caused bydimensional changes
temperature and humidity excursions(passive) caused bydimensional changes
A secondary consideration ... moisture absorptioncausesdimensional changes
thermal expansion and shrinkage of a sample(passive) caused bydimensional changes
thermal expansion and contraction and structure distortions induced by the variations in the room temperature(passive) caused bydimensional changes
such factors such as temperature , humidity , chemical treatment , age or stress(passive) caused bydimensional change
microstructural evolution or thermal expansion(passive) caused bydimensional changes
humidity and heat(passive) caused bydimensional change
heat and humidity(passive) caused bydimensional change
temperature variations and wear(passive) caused bydimensional changes
temperature differences , vibration , etc(passive) being caused bydimensional changes
temperature and humidity of block board(passive) caused bythe dimensional changes
thermal expansion or contraction of the housing 11 , rod 12 , and other components of the inclinometer 10(passive) caused bydimensional changes
This material must be protected from sudden changes in humidity and temperatureto preventdimensional changes
fluctuations in humidity and temperature in the use environment(passive) caused bydimensional changes
thermal expansion , which varies for different substances(passive) is caused byDimensional change
differential thermal expansion of the mating components(passive) caused bydimensional changes
temperature cycling(passive) caused bythe dimensional changes
Eliminates temperaturecauseddimensional changes
variations in ambient conditions , such as temperature and humidity(passive) caused bydimensional changes
thermal expansion or mechanical vibration of pipeline / conduit / vessel through corrugated compensator 's elastic component(passive) caused bydimensional change
temperature , humidity , chemical treatment , aging , or stress(passive) caused bydimensional changes
mate- 1 Thermal expansion Heating of a materialcausesdimensional changes
changes in relative humidity BS EN(passive) caused bydimensional changes
Increases in relative humiditycausesdimensional changes
from piping thermal expansion or contractionresultingfrom piping thermal expansion or contraction
thermal expansion and contraction pipe leakagecausingthermal expansion and contraction pipe leakage
from thermal expansion or contraction , or distortion resulting from hydrostatic pressure of the liquidresultingfrom thermal expansion or contraction , or distortion resulting from hydrostatic pressure of the liquid
in stress concentrationmay resultin stress concentration
from mechanical stress or temperature changesresultingfrom mechanical stress or temperature changes
from the thermal expansion of the componentsresultingfrom the thermal expansion of the components
from prestress , creep , shrinkage , and temperatureresultingfrom prestress , creep , shrinkage , and temperature
residual stress(passive) caused byresidual stress
from said thermal changes or water absorptionresultingfrom said thermal changes or water absorption
from differences in thermal expansionresultingfrom differences in thermal expansion
from thermal expansion and contractionsresultingfrom thermal expansion and contractions
Erom differential thermal expansion of the ceramic monolith and metal containerresultingErom differential thermal expansion of the ceramic monolith and metal container
from elastic deformation , creep , shrinkage , temperature and moisture Loads used in the design of masonryresultingfrom elastic deformation , creep , shrinkage , temperature and moisture Loads used in the design of masonry
during hardening and having a dust - free surface and a compressive strength in the range of about 2500 to 6000 psi . 2causedduring hardening and having a dust - free surface and a compressive strength in the range of about 2500 to 6000 psi . 2
during hardening and having a dust - free surface and a compressive strength in the range of about 2500 to 6000 psi . 8causedduring hardening and having a dust - free surface and a compressive strength in the range of about 2500 to 6000 psi . 8
stress cracking or other failurecan causestress cracking or other failure
from axce deformation , creep , shrinkage , temperature and moistureresultingfrom axce deformation , creep , shrinkage , temperature and moisture
from thermal expansion and neutron irradiationresultingfrom thermal expansion and neutron irradiation
to movement of padding under castleadto movement of padding under cast
from shrinkage and relaxationresultingfrom shrinkage and relaxation
from the photographic processingresultingfrom the photographic processing
from piping thermal expansion ejam contractionresultingfrom piping thermal expansion ejam contraction
from elas - ticdeformation , creep , shrinkage , temperatureandmois - tureresultingfrom elas - ticdeformation , creep , shrinkage , temperatureandmois - ture
from humidity or temperature variationsresultingfrom humidity or temperature variations
to warping or crackingledto warping or cracking
from bending or flexing of the substrate from its initial flat form to occur anisotropicallyresultingfrom bending or flexing of the substrate from its initial flat form to occur anisotropically
from variations in temperature or other causesresultingfrom variations in temperature or other causes
in an increase length or width of a specimenresultingin an increase length or width of a specimen
from temperature fluctuations etcresultingfrom temperature fluctuations etc
from creep , shrinkage , and tem- � Anchorage length of reinforcement and location and length of lap splicesresultingfrom creep , shrinkage , and tem- � Anchorage length of reinforcement and location and length of lap splices
from said water absorptionresultingfrom said water absorption
from shrinkage and internal stress buildup that occur in the final product as it cools or curesresultfrom shrinkage and internal stress buildup that occur in the final product as it cools or cures
undesirable cockling and curling , Dimensional changes incauseundesirable cockling and curling , Dimensional changes in
from temperature variations caused by vibrational dampingmay resultfrom temperature variations caused by vibrational damping
from moisture absorption and temperature fluctuationsresultingfrom moisture absorption and temperature fluctuations
time PropertiesSettingtime Properties
from thermal change , parts accuracy and/orresultingfrom thermal change , parts accuracy and/or
from the difference in the thermal expansion rates of the solar cell module 1 and supporting body 2resultingfrom the difference in the thermal expansion rates of the solar cell module 1 and supporting body 2
from the operating temperature variations ( start - up but also seasonal or application basedresultingfrom the operating temperature variations ( start - up but also seasonal or application based
drying defects , including checks , splits , warp , casehardening , and honeycombwill causedrying defects , including checks , splits , warp , casehardening , and honeycomb