In this dissertation research article we aimed to get the knowledge of mechanical behavior of copper alloy material beryllium copper using a 3D model of universal joint. For this purpose we have studied so many authors to get the parameters which affect the performance of universal joint. We found that factors and parameters such as material of universal joint, Construction and size of the universal joint, Mechanical properties of universal joint, Optimization methods for universal joint system, Innovative design of universal joint are the parameters which can be optimized for getting better results of structural performance enhancement of universal joint. Following the review process we modeled a 3d geometry of universal joint in CATIA V5 and performed structural analysis on ANSYS 14.0. we found out by solution of the analysis that beryllium copper is more suitable for manufacturing of universal joint since we got less total deformation for beryllium copper when compared with the conventional material of universal joint i.e. structural steel The values of stresses and strains were found to be optimum as well. These all contributed to increase the structural performance of universal joint by using alloy material beryllium copper.