Yield stress, proof stress, toughness, Young's modulus, Hooke's law
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Yield stress, proof stress, toughness, Young's modulus, Hooke's law.
Hooke's Law
- "Stress is proportional to strain up to the PROPORTIONAL LIMIT (1)"
- This means that any increase in stress will bring about a proportional increase in strain up to the proportional limit.
- Written mathematically, the formula of Hooke's Law is:
E is a constant. (Young's Modulus[see below])σ is stress (Pa)ε is strain
Young's Modulus
- Young's Modulus is a measure of the stiffness of a material.
- It is also known as the Modulus of Stiffness/Elasticity
- This is the constant that is represented in Hooke's Law (see above)
Proportional Limit
- This is when an increase in stress no longer has a linear relationship with an increase in strain.
- Sometimes this is known as the elastic limit.
Resilience
- This is the ability of a material to retain its shape after being deformed.
- It can be found through the area under the curve up to the proportional limit.
Yield Stress
- This is the Stress Value at the Progressive Yield Point (3).
- This is when there is no relationship between an increase in stress and an increase in strain.
- Is a useful value as the UTS point occurs after some deformation where this only begins to deform.
Proof Stress
- An approximation for the Yield point/Elastic limit for materials that don't have a definite one due to their structure.
- To find the approximation, a tangent is produced from the Proportional Limit. The points of intersection between the graph and the tangentdefines the Proof Stress of the material.
- The line may be moved slightly to accommodate for certain materials.
- Examples are 0.1%/0.2% Proof Stress, where the tangent is produced from a point slightly (0.001) to the right of the Proportional Limit.
Toughness
- "A material's ability to absorb energy"
- This is sometimes known as impact strength.
- This can be found by finding the Area under the ENTIRE curve.
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