Strength terminology in materials: The stress beyond which a material shows permanent set is the yield stress; the highest stress that can be applied without any permanent set is called the __________.
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Aultimate stress
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Byield stress
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Celastic limit
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Dbreaking stress
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Eproof stress (0.2%)
Answer
Correct Answer: elastic limit
Explanation
Introduction:Accurate terminology in mechanics of materials prevents design mistakes. Elastic limit, yield stress, ultimate stress, proof stress, and breaking stress describe different points on a stress–strain response. This question focuses on the highest stress that does not cause any permanent deformation (no “set”).
Given Data / Assumptions:
- Conventional tensile testing on metals.
- Small-strain elastic behavior followed by plasticity at higher stress.
- “Permanent set” means nonzero plastic strain after unloading.
Concept / Approach:The elastic limit is the greatest stress that a material can withstand and still completely recover its original dimensions upon unloading. The yield stress corresponds to the onset of plastic deformation (observable offset). In some metals without a clear yield point, proof stress (e.g., 0.2% offset) is used as a practical substitute.
Step-by-Step Solution:Identify the definition requested: no permanent set → purely elastic response.Match the term: “elastic limit.”Recognize that “yield stress” is the boundary where permanent set begins, so it is not the answer.
Verification / Alternative check:Unloading–reloading hysteresis in tensile tests shows zero residual strain only below the elastic limit.
Why Other Options Are Wrong:
- Ultimate/breaking stress: occur well into plasticity.
- Yield stress/proof stress: relate to onset of plasticity, not the safe elastic maximum.
Common Pitfalls:Using yield and elastic limit interchangeably. Some materials have a small interval between them; in design, safety factors ensure operation well below yield.
Final Answer:elastic limit