In material science, strain does not depend on stress; rather it's the reverse. Stress is proportional to strain, as stated by Hooke's Law, until the material reaches its elastic limit.
no because stress depends on the force and area of the element
Stress = Young's modulus times strain in the linear region ( s = Ee)
Strain is the measure of length change per unit length. Elongation usually refers to strain under load at failure point.
First of all i guess the right question is difference between strain and deformation. Actually the strain is deformation in a material over its original length. So strain is a relative quantity while deformation is simply change in length, hence absolute and is new length minus original length. Strain= deformation(L2-L1)/original length(L1)
Strain aging could be described as " normal wear and tear " or the fatigue that is experienced under normal conditions, whereas Dynamic strain would be an out of the normal range stress condition like a one time over stress condition where the sum of much strain aging is experienced in one " dynamic" occurrence.
The essential difference is that the bonded strain gauges are bonded on to the specimen whose strain is being measured whereas the unbonded strain gauges are not bonded on to the specimen. As the bonded strain gauges are well bonded on to the specimen, the entire strain being experienced by the specimen is transferred to the strain gauge. However, the bonded strain gauges are affected by temperature changes and also due to transverse strains.For transverse strains and ambient temperature compensations, suitable circuits for compensation can be used using Wheatstone's bridge. The unbonded strain gauges cannot transfer the strain of the specimen to the strain gauge and hence it is used mainly for displacement, or pressure or force transducers. It is least affected by transverse strain and temperature compensation of unbonded gauges cis automatically eliminated using Wheatstone's bridge.
E is generally taken to be the elastic constant known as Young's modulus which describes the relationship between axial stress and axial strain where Hooke's law still applies (i.e. linear elasticity). Nu is Poisson's ratio which is the relationship between axial strain and radial or transverse strain. For more information, please see the related link.
Strees decreases after the plastic range because the material has releived the strees through movement.
Strain - muscle/tendons Sprain - ligaments
A feeling of stress
tension, overwhelmed, pressure
yes having stress can kill you
no
lateally stress and goner strees and gape strees make a indacaple type of stress that make yo hitt.
anxiety
difference between Strain-stress diagram of copper and steel?
the leading or lagging between the stress and strain is called hysteresis loop
indications for terminating strees testing ?
Strain is the measure of length change per unit length. Elongation usually refers to strain under load at failure point.