A body of rock affected by tensile stress will likely undergo stretching. This happens during the asymmetric deformation of a rock mass.
Rocks are most likely to undergo brittle deformation at shallow depths in the Earth's crust where the confining pressure is lower. This occurs because the rocks are not under enough pressure to cause ductile deformation, so they instead break and fracture in response to high stress. Examples include faults in the upper crust or rock formations near the Earth's surface.
When rocks at plate boundaries undergo stress, they can deform in different ways. They may bend and fold if the stress is not too extreme, or they may break and slip along faults if the stress is too great. This can lead to earthquakes, volcanic activity, or the formation of new structures in the Earth's crust.
The rocks either fracture under the stress, or become compressed in different rocks known as "metamorphic".
what happens when rocks beneath earths surface under goes trees
Normal fault: Associated with tensional stress, where the hanging wall moves down relative to the footwall. Reverse fault: Associated with compressional stress, where the hanging wall moves up relative to the footwall. Strike-slip fault: Associated with shear stress, where the rocks move horizontally past each other.
Shortening
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 strength is the maximum amount of tensile stress a material can withstand before breaking. Tensile stress is the force applied per unit area of the material. Tensile strength is a property of the material itself, while tensile stress is the external force acting on the material. In terms of material properties, tensile strength indicates the material's ability to resist breaking under tension, while tensile stress measures the amount of force applied to the material.
tensile stress =force/area
tensile stress is due to just the tension in the load whereas breaking stress can be due to breaking,shearing or compression!
tensile stress compressive stress shear stress
Tensile stress is the force applied to a material per unit area, while tensile strength is the maximum stress a material can withstand before breaking. Tensile stress is a measure of the internal forces within a material, while tensile strength is a measure of its ability to resist those forces. In the context of material properties, tensile stress helps determine how much force a material can handle, while tensile strength indicates the maximum force it can withstand before failing.
after ultimate tensile strength (UTS)