force/area = stress (it's the same as pressure)
tensile stress =force/area
after ultimate tensile strength (UTS)
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.
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.
force/area = stress (it's the same as pressure)
Yield stress is bigger than tensile stress.
Tensile Stress is approximately two times the shear stress.Relationship bet n Tensile Stress and bearing stress varies from application to application.It Depends on Various Factors.
Tensile.
tensile stress=tensile load/cross sectional areaex. tensile stress= p/a= 50kilo newton x 1000n/kg divide by pi/4(20)^2=159.15N/mm^2
This is known as tensile stress.
tensile stress is due to just the tension in the load whereas breaking stress can be due to breaking,shearing or compression!
tensile stress =force/area
tensile stress compressive stress shear stress
Tensile strength is the maximum force a material can withstand without breaking, while tensile stress is the force applied per unit area of the material. Tensile strength is a property of the material, while tensile stress is a measurement of the force applied to the material.
after ultimate tensile strength (UTS)
Ductility is an objects ability to deform under tensile stress.