The main aim of this study is to investigate the optimum design solution for a small sheet metal part which is directly formed from sheet metal under pure torsion. In this study, a finite element technique is used to perform the nonlinear and large deformation analysis of the component designed under constant torque due to the features of the problem, and a simple torsion test is also conducted to verify the accuracy of the finite element model. Then experimental design using the Taguchi method is followed to analyze the effects of design factors on the deformation of sheet metal parts. The target of the analysis is the minimum deformation of the component under a given torque. The design factors considered include the thickness, width, and height of the sheet metal, the position of the hole, the radius of the bend, and the types of ribs, etc. An optimum solution minimizing deformation under the design criteria is generated in this case study. The final results also show that the thickness, and the width of the component considered have large effects on the torque resistance capability.