Mechanical stress is due to the resistance offered by various materials against physical distortion or damage. Thermal stress is caused due to the expansion of materials due to the variations in temperature with respect to reference value.
C8 stress
External is out side emotional is in
brittle materials get break when subjected to stress but malleable do not.
Normal stress and shear stress
Difference in strength, 275 and 355 refer to minimum yield stress of the material (275 MPa and 355 MPa).
the differences between intonation and stress is the difference . ! :D :D hahahahahaa
C8 stress
The relationship between stress and strain in materials under mechanical deformation is described by Hooke's Law, which states that stress is directly proportional to strain. This means that as a material is subjected to a force (stress), it will deform (strain) in a predictable and linear manner. The relationship between stress and strain helps engineers and scientists understand how materials behave under different conditions and can be used to predict their mechanical properties.
Stress is a bodies response and conflict is a disagreement.
External is out side emotional is in
Normal stress and shear stress are two types of stresses that act on a material under mechanical loading. Normal stress is a force applied perpendicular to the surface of the material, while shear stress is a force applied parallel to the surface. The relationship between normal stress and shear stress depends on the material's properties and the direction of the applied forces. In general, normal stress and shear stress can interact and affect each other, leading to complex mechanical behaviors in the material.
The latter is more effective.
there is no difference
Yield stress is the amount of stress a material can withstand before it starts to deform, while yield strength is the maximum stress a material can handle before it permanently deforms. These properties affect the mechanical behavior of a material by determining its ability to withstand loads without breaking or deforming. Materials with higher yield stress and yield strength are generally stronger and more durable.
main effect of mechanical stress
The relationship between stress and strain determines how materials respond to mechanical forces. Stress is the force applied to a material, while strain is the resulting deformation. When a material is subjected to stress, it deforms or changes shape, which is known as strain. The behavior of materials under mechanical loading is influenced by how they respond to stress and strain. Materials can exhibit different properties such as elasticity, plasticity, and brittleness based on their stress-strain relationship.
The strain vs stress graph shows how a material responds to mechanical loading. It reveals that as stress increases, strain also increases, but not necessarily in a linear manner. The relationship between strain and stress can vary depending on the material's properties and behavior under different loading conditions.