Deformation limit evaluation method for sheared surface of metal sheet, crack prediction method, and press die designing method

The invention claimed is: 1. A deformation limit evaluation method comprising: evaluating the deformation limit on a sheared surface of a sheared metal sheet when the sheared metal sheet is formed by press forming including bending, and performing press forming based on the evaluation of the deformation limit on the sheared surface to reduce defective rate, wherein the deformation limit on the sheared surface is evaluated based on a relationship between an index value determined from two surface strain distribution gradients of a surface strain distribution gradient in a sheet thickness direction in the sheared surface and a surface strain distribution gradient in a bending ridge line direction by the bending at an evaluation position among distributions of stains generated near a boundary between a bending outside surface and the sheared surface of the metal sheet to be bent and a tension generated in the sheared surface, wherein the index value is a root mean square of the sum of the two strain distribution gradients. 2. The deformation limit evaluation method according to claim 1 , comprising: calculating the tension by a forming simulation of the bending; and setting the tension as a tensile stress generated in a finite element along a center in the sheet thickness in a bent portion. 3. The deformation limit evaluation method according to claim 1 , comprising: calculating the tension by a forming simulation of the bending; and setting the tension as an average value of tensions of finite elements distributed in the sheet thickness direction in a bent portion. 4. The deformation limit evaluation method according to claim 1 , comprising: calculating the surface strains in the sheet thickness direction and in the bending ridge line direction for determining the two surface strain distributions by the forming simulation of the bending. 5. The deformation limit evaluation method according to claim 1 , wherein the evaluation position is a position where generation of a split is estimated when an end surface is deformed by target bending. 6. The deformation limit evaluation method according to claim 2 , comprising: calculating the surface strains in the sheet thickness direction and in the bending ridge line direction for determining the two surface strain distributions by the forming simulation of the bending. 7. The deformation limit evaluation method according to claim 3 , comprising: calculating the surface strains in the sheet thickness direction and in the bending ridge line direction for determining the two surface strain distributions by the forming simulation of the bending. 8. A press die designing method comprising: designing a shape of a press die suppressing generation of a crack in a metal sheet end surface using the deformation limit evaluation method according to claim 1 . 9. A crack prediction method comprising: predicting presence or absence of a crack when a sheared metal sheet is formed by press forming including bending, and performing press forming based on the predicted presence of absence of the crack to reduce defective rate, wherein a relationship between an index value having, as variables, two surface strain distribution gradients of a surface strain distribution gradient in a sheet thickness direction in a sheared surface and a surface strain distribution gradient in a bending ridge line direction by the bending among distributions of stains generated near a boundary between a bending outside surface and the sheared surface of the metal sheet to be bent and a tension generated in the sheared surface is determined beforehand, wherein the index value is a root mean square of the sum of the two strain distribution gradients; and the crack in the sheared surface is predicted from the relationship and the index value determined from the two surface strain distribution gradients at an evaluation position. 10. A press die designing method comprising: designing a shape of a press die suppressing generation of a crack in a metal sheet end surface using the crack prediction method according to claim 9 .