Discontinuous yielding in a low alloy steel

AI Thread Summary
Discontinuous yielding in low alloy steel A706 grade may be influenced by its alloying elements, particularly manganese and vanadium, which could lead to a greater degree of continuous yielding. The discussion highlights that the testing conditions for A706 and A615 grade bars are consistent, yet the A615 bars exhibit typical discontinuous yielding behavior. The lack of literature on this specific effect raises questions about the material properties of A706. Participants are encouraged to share their experiences and insights regarding this phenomenon in their testing. Understanding these differences is crucial for optimizing the performance of low alloy steels in various applications.
Quentin_alex
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What could prevent the discontinuous yield (upper and lower) points during a tensile test on a low alloy steel A706 grade?

Thanks.
 
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Are you seeing this in your testing? What is the project? Or is this for schoolwork?
 
Yes, I am seeing this in my testing. It is for a project.

We mostly run thermomechanically treated bars (Tempcore process) that are A615 grade. They show the typical discontinuous yielding of plain carbon steel. The A706 grade is a low alloy steel predominately strengthened by the addition of manganese and vanadium. I have not found literature on this effect. Could the alloying condition result in a greater degree of continuous yielding rather than discontinuous?

Also, testing conditions are the same for both types of bars.

Thanks.
 
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