Mechanical properties are those properties which involve a relationship between strain and stress. Hardness, proof load, yield strength and ultimate tensile strength are examples of mechanical properties. The final combination of the fastener's mechanical properties gained during its manufacture. and post-treatment processing.
The properties of a material, such as compressive and tensile strengths and modulus, that are associated with elastic and inelastic reaction when force is applied.
Mechanical properties are measurements pertaining to the strength and flexibility of bones, including the amount of stress and strain the bone can tolerate before breaking.
Characteristics of a material in response to externally applied forces. e.g.; tensile strength, yield strength and elongation hardness.
Those properties of a material that reveal the elastic and inelastic reaction when force is applied, or that involve the relationship between stress and strain. Mechanical properties are dependent on chemical composition, forging, and heat treatment.
The physical and operational properties of a material as they pertain to its toughness and durability when subjected to various types of stress.
Those properties of a material that are associated with elastic and inelastic reaction when force is applied, or that involve the relationship between stress and strain; for example, modulus of elasticity, tensile strength, endurance limit. These properties are often incorrectly referred to as physical properties.
Those properties of a material that are associated with elastic and inelastic reaction when force is applied. These properties, which can also involve the relationship between stress and strain, include abrasion resistance, ductility, elasticity, creep, hardness, impact resistance, friction resistance, stiffness and strength.
Refers to characteristics of materials that are usually measured through changing or destroying the material, eg strength, hardness, elasticity.
Properties interpreting and explaining the phenomena of the universe by referring to causally determined material forces; mechanistic
Properties determined by mechanical testing, such as yield strength, ductility, ultimate tensile strength, hardness, bendability, impact strength, etc.
A series of measurements taken with the application of force to reveal a metal product's elongation, fatigue limit, hardness, modulus of elasticity, tensile strength, and yield strength.
Those properties of a material that reveal the elastic and inelastic reaction when force is applied, or that involve the relationship between stress and strain, for example, the modulus of elasticity, tensile strength and fatigue limit. These properties are often referred to as "physical properties".
The properties of a material that reveal its elastic and inelastic behavior where force is applied, thereby indicating its suitability for mechanical applications; for example, modulus of elasticity, tensile strength, elongation, hardness and fatigue limit.
are those characteristics measured under certain conditions which reveal the reaction of a material to an applied force.
Those properties of a material that reveal the elastic and inelastic reaction when force is applied, or that involve the relationship between stress and strain; for example, the modulus of elasticity, tensile strength, and fatigue limit. This term should not be used interchangeably with "physical properties."