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Breaking stress is the maximum amount of stress a material can withstand before it breaks. This is also known as ultimate tensile stress.
It is the maximum stress at which a material will fail when subject to flexural ( moment producing) bending loads. These stresses occur a the material outer fibers.
Yield stress..
The ability of a material to bounce back after being disturbed is called elasticity. It refers to the ability of a material to regain its original shape and size after deformation or stress is applied to it and then removed. This property is commonly observed in materials like rubber or springs.
I assume you are asking about shear stress... It is the force applied coplanar to the material cross section. Just imagine a match box with its one face sticked to ground. If you put your thumb on top of the match box and push it to a side then the box suffers a stress which is called shear stress. According to my perception if you subject a material with such a kind of force the material 'may' undergo tearing internally... Hope your question is answered...
The amount of force is called stress.
Breaking stress is the maximum amount of stress a material can withstand before it breaks. This is also known as ultimate tensile stress.
the maximum stress which the material can bear without breaking is called the maximum tensile strength of the material
The greatest stress that a material can resist before breaking is called the ultimate tensile strength. It is the maximum amount of stress a material can withstand without breaking under tension. Different materials have different ultimate tensile strengths, and it is an important property to consider for designing and engineering structures.
5%
this region is called the linear elastic region as such it is the linear elastic stress.
Stress
It is the maximum stress a material can withstand while being strteched.
It is the ultimate strength of a material subjected to tensile loading. In other words, it is the maximum stress developed in a material in a tension test.
It is the maximum stress at which a material will fail when subject to flexural ( moment producing) bending loads. These stresses occur a the material outer fibers.
This is known as the Modulus of Elastisity, or Youngs Modulus (in tension/compression) and will be a constant as long as the deformation is in the elastic range.
It is the maximum stress at which a material will fail when subject to flexural ( moment producing) bending loads. These stresses occur a the material outer fibers.