Effect of material properties on thermal equivalence of shear stress in the presence of interfacial crack using finite element method

The Structural components in metallic structures subjected to mechanical and thermal loading in severe environmental conditions experience a different range of Temperatures. So, the Steel Structures are predominant thermal loading apart from automatic loading at the interfaces of the various metallic components under severe environmental conditions. Those constructions must be intended for warm stacking too. In this way, warm stacking should be changed over into comparable mechanical pressure to plan the part. We attempted to offer an observational model for Thermal identicalness to mechanical stress using an interfacial crack mechanics technique and Finite Element Analysis in this regard. The investigation’s primary goal is to use material properties to determine the impact of the warm burden on a bi-material interface as a function of energy discharge rate. We proposed a basic model for thermal proportionality to mechanical pressure using FRANC 2D programming and a limited component method.