Difference between Tensile Stress and Compressive Stress
Tensile stress and compressive stress are two types of stress that can act on a material as a result of an applied load.
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Tensile Stress: Formula, Advantages, Disadvantages & Uses
Tensile stress is a type of mechanical stress that results when a force is applied to a material that tends to stretch or lengthen it. It is typically measured in units of force per unit area, such as pascals (Pa) or pounds per square inch (psi).
Compressive Stress – Definition, Formula, Advantages, Disadvantages Uses
Compressive stress is a type of stress that is applied to a material by an external load that is acting to compress or shorten the material. When a material is subjected to compressive stress, the internal forces within the material act to resist the external load and prevent the material from collapsing. The amount of compressive stress that a material can withstand is known as its compressive strength.
Difference between Tensile Strain and Compressive Strain?
Tensile stress and compressive stress are two types of stress that can act on a material as a result of an applied load.
Tensile Strain: Definition, Formula, Advantages, Disadvantages & Uses
Tensile strain is a measure of the deformation of a material when it is subjected to tensile stress. It is defined as the change in length of a material divided by its original length, and is typically expressed as a percentage.
Compressive Strain: Definition, Formula, Advantages, Disadvantages & Uses
Compressive strain is the measure of the deformation of a material in response to compressive stress, or the squeezing of the material. It is often used in the design and analysis of structures and mechanical components to determine their behavior under compressive loads.
What is Young’s modulus and how is it used in mechanics of materials?
Young’s modulus, also known as the modulus of elasticity, is a mechanical property of materials that describes their stiffness or resistance to deformation under tensile or compressive stress.
Difference between Elastic and Plastic deformation?
Elastic deformation and plastic deformation are two types of deformation that can occur in a material when it is subjected to a load.
What is the Yield Strength of a Material and how is it determined?
The yield strength of a material is the maximum amount of stress that the material can withstand before it begins to deform permanently, or yield
What is the ultimate tensile strength of a material and how is it determined?
The ultimate tensile strength of a material is the maximum amount of stress that the material can withstand before it fails or breaks. It is an important mechanical property of materials that is used to predict their behavior under load and to design and analyze structures and components.