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an internal pressure on a thin wall cylindrical pressure vessel(passive) created bythe hoop stress
rod internal pressure and cladding temperature that is induced by decay heat(passive) caused byhoop stress
the internal pressure of the burning fuel(passive) caused byhoop stresses
internal pressure of product flowing through a pipe(passive) is caused byHoop Stress
the internal pressure in the natural gas pipelines(passive) caused byhoop stresses
internal pressure of the mud column and pressure with kicks(passive) is caused byHoop stress
the end - of - life internal pressure of the tangential stress(passive) caused bythe hoop stress
the press fit(passive) created byThe hoop stress
an internal pressure of 500 psi ( 3.4 MPa(passive) created bythe hoop stress
the internal pressure of the gaseous fission products and fill gases(passive) caused bythe hoop stress
an internal pressure on a thin - walled cylindrical pressure vessel(passive) created bythe hoop stress
on the bounding ridges of tungsten carbide positioned interior(passive) are createdHoop stresses
the force of the internal pressure ( P ) pushing outward on the inside surface of the tube(passive) is caused byHoop stress ( σh
the pressure of the molten metal(passive) caused bythe hoop stress
elevated IOP(passive) caused bythe hoop stress
a pressure differential(passive) created byhoop stresses
the distending pressure(passive) caused bythe hoop stress
the air pressure(passive) caused byhoop stress
tire pressure(passive) caused bythe " hoop stress
the combustion pressure(passive) caused bythe hoop stress
the ligating bands 50 stretched thereover(passive) caused bythe hoop stress
very high centrifugal force(passive) caused byhoop stress
The tungsten carbide powder 130 transmits this pressure to the internal diameter of the graphite mold 110thereby creatinghoop stress
press fits and centrifugal force(passive) caused byHoop stresses
around the edge of a lite of glass for every 0.56oC ( 1 ° F °(passive) is createdhoop stress
the capillary transmural pressure(passive) caused bythe hoop stress
the increasing pressure in the tank(passive) caused bythe hoop stress
pressure of the fluid in the pipe(passive) created byhoop stresses
the cyclic surge pressure(passive) caused byhoop stress
fluid pressure in the pipe(passive) created byhoop stresses
the pressure of the transport fluid(passive) caused bythe hoop stress
the outside hydrostatic head pressure(passive) caused byhoop stress
pressure from within the composite sleeve(passive) caused bythe hoop stress
thermal fatigue of the rotor that is attributed to the material during cyclic operation of the rotor(passive) caused bya hoop stress
shrinking an insert into an aluminium housing depend of the interference fit intended(passive) created byThe hoop stress
the increased pressure located around the screws(passive) caused byhoop stresses
the few psi of water pressure over such a large area(passive) created bythe hoop stress
a pressure difference across the walls of the connector(passive) caused byhoop stresses
the pressure resulting from the column of water in the tub(passive) caused bythe hoop stress
the design pressure and the SMYS of the pipeline material(passive) created bythe hoop stress
due to internal pressureresultingdue to internal pressure
during the press fit of the metal cones and scaling tipscreatedduring the press fit of the metal cones and scaling tips
in an internal pressure of ~ 1 kPa on the myotubes at the core of the myooidresultsin an internal pressure of ~ 1 kPa on the myotubes at the core of the myooid
in a thin rotating ringcreatedin a thin rotating ring
up in the cylinder walls= Forcesetup in the cylinder walls= Force
from the pressure produced by the mass loadingresultingfrom the pressure produced by the mass loading
from an interaction of electric current from through said conductor with said magnetic fieldresultingfrom an interaction of electric current from through said conductor with said magnetic field
in the second layercreatedin the second layer
from the down - hole fluid pressureresultingfrom the down - hole fluid pressure
the axial expansion or height increase of intervertebral disc 202(passive) caused bythe axial expansion or height increase of intervertebral disc 202
within filter cartridge 22 by internal operating pressurecreatedwithin filter cartridge 22 by internal operating pressure
in the hose by internal water pressurecreatedin the hose by internal water pressure
as a result of the internal operating pressurecreatedas a result of the internal operating pressure
up in thin walled pressure vessels andsetup in thin walled pressure vessels and
within said transfer sheetcreatedwithin said transfer sheet
The increased contact line velocity(passive) is caused byThe increased contact line velocity
cracking along the radial directioncan causecracking along the radial direction
deconsolidation and also relieves thermal stresspreventsdeconsolidation and also relieves thermal stress
from the pressure differential between the evacuated region and the outside worldresultingfrom the pressure differential between the evacuated region and the outside world
from pressure differential forces applied across the vesselresultingfrom pressure differential forces applied across the vessel
from the pressure by the flow and acting on the wall of the channel made of the rolled bilayerresultingfrom the pressure by the flow and acting on the wall of the channel made of the rolled bilayer
up within the nut as a result of the tension between the threads of the nut and the bolt 44setup within the nut as a result of the tension between the threads of the nut and the bolt 44
up in the region of the protrusion of the first cassette part 210 such that there is an interference fit between the two cassette partsto be setup in the region of the protrusion of the first cassette part 210 such that there is an interference fit between the two cassette parts
up within the electrolyte , which calculations show may well exceed the electrolyte strengthwill be setup within the electrolyte , which calculations show may well exceed the electrolyte strength
in decreased tibiofemoral contact area and increased contact pressures in the involved compartmentresultingin decreased tibiofemoral contact area and increased contact pressures in the involved compartment
me to my next question In the calculation to determin the pressure between the bushing and the bore there is a variable for the radius after it is pressed into the bore Socket Analysis - Aircraft engineering - Eng - Tips Mar 06 , 2008leadsme to my next question In the calculation to determin the pressure between the bushing and the bore there is a variable for the radius after it is pressed into the bore Socket Analysis - Aircraft engineering - Eng - Tips Mar 06 , 2008
within the transfer sheets when the ball 550 is first placed on and supported by the first or lower transfer sheet 570 , which is supported upon cavity housing 590 by frame 560createdwithin the transfer sheets when the ball 550 is first placed on and supported by the first or lower transfer sheet 570 , which is supported upon cavity housing 590 by frame 560
to panel cracking The tendency for countersunk screws to cause stress - cracking is often heightened by the ease and frequency with which countersunk screws tend to be over - tightenedcan leadto panel cracking The tendency for countersunk screws to cause stress - cracking is often heightened by the ease and frequency with which countersunk screws tend to be over - tightened
from horizontal hydrostatic fluid pressuresresultfrom horizontal hydrostatic fluid pressures
the vascular wall tension ( muscular tensioninfluencesthe vascular wall tension ( muscular tension
during assemblycausedduring assembly
as a result of differential coefficients of expansion during coolingcausedas a result of differential coefficients of expansion during cooling
in the cover as the fitment shrinks upon coolingcreatedin the cover as the fitment shrinks upon cooling
as a result of differential coefficients of expansion exhibited during coolingcausedas a result of differential coefficients of expansion exhibited during cooling
in the apertures 48 by the interference between the ribbed box sections 60 and the apertues 48createdin the apertures 48 by the interference between the ribbed box sections 60 and the apertues 48
the failures(passive) are being caused bythe failures
friction between the bushing and the platecausesfriction between the bushing and the plate
from diameter reduction and friction between the cup wall and the blank holder 13resultingfrom diameter reduction and friction between the cup wall and the blank holder 13
a creep rupture with timewould causea creep rupture with time
in a load being provided to the platform from the engagement surfaceresultsin a load being provided to the platform from the engagement surface