Is this the cause of residual stress?

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The discussion centers on the differences in the bending behavior of copper and mild steel wires. Copper wire bends smoothly due to its face-centered cubic (FCC) crystal structure, which allows for more slip systems and ductility. In contrast, mild steel, with its body-centered cubic (BCC) structure, tends to kink and deform into a polygonal shape due to its limited slip systems and different stress-strain characteristics. The conversation emphasizes the importance of understanding the stress-strain curves for both materials, particularly how mild steel behaves when it departs from elastic behavior, which contributes to its tendency to kink rather than bend smoothly. The concept of residual stress is questioned, with participants suggesting that it may not be the primary factor in this context.
drew1.0beta
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hi everyone..
my lecturer gave each of us a task..we have to give a short presentation next week. everyone have a different topic..mine is this:

"Explain the observation that a copper wire will bend smoothly around a finger, whereas a mild-steel wire will kink and deform to a polygonal shape"

Is these the cause of residual stress? i read from my textbook and search the internet to understand better...but i couldn't put 'residual stress' and wires together..can anyone explain to me?

THANKS ALOT!
-andrew-
 
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This doesn't sound like residual stress to me. Consider that copper has an FCC crystal structure and steel generally has a BCC crystal structure. Do these structures have different slip systems?
 
drew1.0beta said:
hi everyone..
my lecturer gave each of us a task..we have to give a short presentation next week. everyone have a different topic..mine is this:

"Explain the observation that a copper wire will bend smoothly around a finger, whereas a mild-steel wire will kink and deform to a polygonal shape"

Is these the cause of residual stress? i read from my textbook and search the internet to understand better...but i couldn't put 'residual stress' and wires together..can anyone explain to me?

THANKS ALOT!
-andrew-
Please review the stress-strain curve/diagram for mild steel and copper. Pay close attention to what happens when the materials depart from strictly elastic behavior. What is the significance of the increasing strain at constant stress for the mild steel?

One reference -
http://www.optics.arizona.edu/optomech/references/OPTI_222/OPTI_222_W4.pdf
http://www.phy.hr/~atonejc/mehanickaSvojstva.pdf
 
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