Calculating Cross Sectional Area After Cold Working?

AI Thread Summary
Using Poisson's ratio to calculate the cross-sectional area of a cold-worked wire after a 20% elongation may not yield accurate results, especially if the deformation is localized due to necking. A constant-volume assumption could be applied if the elongation is uniform, but this is contingent on the deformation being elastic, which is not the case in plastic deformation. For small deformations around 5%, the applicability of Poisson's ratio diminishes, and other factors might influence the outcome. Accurate measurement tools like microscopes or micrometers are recommended for precise cross-sectional tracking. Ultimately, relying on theoretical calculations may not be practical in this scenario.
scott_alexsk
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Hello,

Is using Poisson's ratio to calculate the cross sectional area accurate after a material has been extensively cold worked and deformed. For example say I have a wire at some nominal length and thickness (which is too small for me to precisely measure, but I know at the start). So can I calculate the cross sectional area from the initial values say after I cold work the wire and get a 20% increase in length, using Poisson's ratio, or perhaps a calculation based on a constant volume assumption. Or is it impossible to calculate it fairly accurately either way?

Thanks,
-Scott
 
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If the 20% elongation was uniform over the sample, you could try a constant-volume (i.e., Poisson's ratio = 0.5) approach to estimate the new cross section. On the other hand, if the elongation results from a localized region of necking, the problem is much harder.

Why not use a microscope or micrometer to track the cross section?

(I assume you know that the typical Poisson's ratio for metals, 0.3, only applies to elastic deformation.)
 
The deformations I want to give are of the order of 5%, so it does not seem large enough to deem a constant volume correction (to me at least since it's so small and other effects may come into play), and it is plastic so Poisson's ratio does not really apply. I have been considering not bothering.

Thanks,
-Scott
 

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