Abstract
Modeling sheet metal forming operations requires understanding of plastic behaviors of sheet metals along non-proportional strain paths. The plastic behavior under reversed uniaxial loading is of particular interest because of its simplicity of interpretation and its application to material elements drawn over a die radius and underwent repeated bending. However, the attainable strain is limited by failures, such as buckling and in-plane deformation, dependent on clearances and side forces. In this study, a finite element (FE) model was established for the compression process of sheet specimens, to probe the deformation behavior. The results show that: With the decrease of the clearance from a very large value to a very small value, four defects modes, including plastic t-buckling, micro-bending, w-buckling, and in-plane compression deformation will occur. With the increase of the side force from a very small value to a very large value, plastic t-buckling, w-buckling, uniform deformation, and in-plane compression will occur. The difference in deformation behaviors under these two parameters indicates that the successful compression process without failures for sheet specimens only can be carried out under a reasonable side force.
Highlights
A finite element (FE) model was established for the compression process of sheet specimens, to probe the deformation behavior
The results show that: With the decrease of the clearance from a very large value to a very small value, four defects modes, including plastic t-buckling, microbending, w-buckling, and in-plane compression deformation will occur
The difference in deformation behaviors under these two parameters indicates that the successful compression process without failures for sheet specimens only can be carried out under a reasonable side force
Summary
0 0.00 0.03 0.06 0.09 0.12 0.15 0.18 0.21 True strain (a) Specimen with two pairs of fins (b) Assembly of specimen and side force wedge design. It is necessary to research the deformation behaviors of sheet metals under compression at various clearances and side forces for successful large-strain compression without failures. A finite element (FE) model was established for the compression process of sheet specimens, to probe the deformation behavior. The influences of different initial clearances and side forces to sheet metal deformation were studied. Reasonable conditions are obtained to ensure the uniform deformation in sheet metal compression testing
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