Discontinuous yielding in a low alloy steel

In summary, the conversation discusses the potential factors that could prevent the discontinuous yield points during a tensile test on a low alloy steel A706 grade. The speaker mentions that they are seeing this in their testing and it is for a project. They also mention that the A706 grade is a low alloy steel strengthened by the addition of manganese and vanadium, and question if this could result in a greater degree of continuous yielding. They note that the testing conditions are the same for both A615 and A706 grades.
  • #1
Quentin_alex
12
0
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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  • #2
Are you seeing this in your testing? What is the project? Or is this for schoolwork?
 
  • #3
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.
 
Last edited:

1. What is discontinuous yielding in a low alloy steel?

Discontinuous yielding in a low alloy steel refers to the phenomenon where the material exhibits multiple stress-strain curves instead of a single smooth curve when subjected to increasing stress. This is caused by the presence of different microstructures within the steel, leading to varying levels of deformation and strain hardening.

2. How does discontinuous yielding affect the mechanical properties of low alloy steel?

Discontinuous yielding can significantly impact the mechanical properties of low alloy steel. It can lead to a decrease in ductility, toughness, and fatigue resistance, as well as an increase in yield and tensile strength. This can make the material more prone to failure under certain conditions and is a crucial factor to consider in engineering applications.

3. What factors contribute to discontinuous yielding in low alloy steel?

There are several factors that can contribute to discontinuous yielding in low alloy steel. These include the composition and microstructure of the steel, the loading conditions and stress rate, and the presence of impurities or defects within the material. The processing and heat treatment of the steel can also play a role in the occurrence of discontinuous yielding.

4. How is discontinuous yielding in low alloy steel detected and measured?

Discontinuous yielding in low alloy steel can be detected and measured through various mechanical tests, such as tensile, compression, and bending tests. The resulting stress-strain curves can reveal the presence of multiple yield points and discontinuities. Microscopic techniques, such as scanning electron microscopy, can also be used to visualize the microstructural changes that occur during discontinuous yielding.

5. Can discontinuous yielding in low alloy steel be prevented?

While it is difficult to completely prevent discontinuous yielding in low alloy steel, its occurrence can be minimized through proper selection of steel composition, heat treatment, and processing techniques. It is also important to consider the loading conditions and stress rate during the design and use of the material. In addition, regular inspections and testing can help identify any potential issues and prevent failure due to discontinuous yielding.

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