G'day guys,
I need to design an experiment to investigate the behavior of steel under cyclic loading. I am particularly interested in understanding the phenomenon of Bauschinger effect after reverse loading. I noticed that one of the common way to perform the test is through cyclic tension-compression test. But the main drawback for this test is that the specimen has the tendency to buckle as it goes through compression load.
I have this idea to conduct a test using cruciform shape specimen. Since the specimen has a shape of "t", what I will do first is to apply tension on vertical arm. I will just let the horizontal arm be free. This also means that I just conduct the test on a Uniaxial test machine. Based on my FEA simulation, it looks that the region at the centre of the specimen will also experience compression because I do not constraint the horizontal arm.
In order to reverse the load, I will take out the specimen and place the horizontal arm to the fixture of the test machine. I will apply tension on this horizontal arm which means that I shall obtain tension and at the same time the previous elongated arm (vertical arm) will return back to its original position. So, it seems to me that I can conduct tension-compression test by repeating this cycle.
But, maybe I miss a few important practical aspects. Hence, I would like to hear your thoughts on this idea.
Cheers
I need to design an experiment to investigate the behavior of steel under cyclic loading. I am particularly interested in understanding the phenomenon of Bauschinger effect after reverse loading. I noticed that one of the common way to perform the test is through cyclic tension-compression test. But the main drawback for this test is that the specimen has the tendency to buckle as it goes through compression load.
I have this idea to conduct a test using cruciform shape specimen. Since the specimen has a shape of "t", what I will do first is to apply tension on vertical arm. I will just let the horizontal arm be free. This also means that I just conduct the test on a Uniaxial test machine. Based on my FEA simulation, it looks that the region at the centre of the specimen will also experience compression because I do not constraint the horizontal arm.
In order to reverse the load, I will take out the specimen and place the horizontal arm to the fixture of the test machine. I will apply tension on this horizontal arm which means that I shall obtain tension and at the same time the previous elongated arm (vertical arm) will return back to its original position. So, it seems to me that I can conduct tension-compression test by repeating this cycle.
But, maybe I miss a few important practical aspects. Hence, I would like to hear your thoughts on this idea.
Cheers