Engineering Stress increases after yield stress?

AI Thread Summary
Engineering stress increases after yield stress due to strain hardening, where dislocations in the material structure increase resistance to further deformation. This phenomenon occurs as the applied force continues to rise, leading to an increase in stress until reaching the ultimate tensile strength (UTS). The relationship between force and stress is mathematically straightforward, as stress is defined as force divided by the original cross-sectional area. The discussion highlights the importance of understanding the mechanical behavior of materials during tensile testing, particularly for steel, copper, and aluminum. Strain hardening is a key factor in explaining the observed increase in engineering stress beyond the yield point.
Seth Vogt
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I need to know why the Engineering stress increases after reaching the yield stress point, and continues to increase until reaching the UTS. Am I correct when I remember that there is strain hardening that occurs along the region from Yield stress to the Ultimate tensile stress? Engineering stress equals Force divided by Original cross-sectional area: σ=F/Ao
My first thoughts were that obviously as you increase the force, the stress will increase (from a purely mathematical outlook, this is apparent since stress increases proportionally to force). How could this be explained in better engineering terms?
Thanks
 
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Seth Vogt said:
I need to know why the Engineering stress increases after reaching the yield stress point, and continues to increase until reaching the UTS. Am I correct when I remember that there is strain hardening that occurs along the region from Yield stress to the Ultimate tensile stress? Engineering stress equals Force divided by Original cross-sectional area: σ=F/Ao
My first thoughts were that obviously as you increase the force, the stress will increase (from a purely mathematical outlook, this is apparent since stress increases proportionally to force). How could this be explained in better engineering terms?
Thanks
Does it need a better explanation than the increase in applied force leads to an increase in stress, regardless of how that stress is calculated?
 
The question is: "From the onset of plastic deformation up to the UTS, the engineering stress increases. Discuss in Engineering terms why."
This is for a lab report in which we performed a tensile test on three materials, steel, copper, and aluminum
 
Yes, thank you both for your insight. I asked the instructor also, and the answer he was looking for was regarding the cold work/strain hardening that occurs as a result of dislocations from the plastic deformation.
 

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