It's been a long time since the explosion technology and knowledge of explosive loads.Today, with the spread of unfortunate terrorist attacks, analysis and design of explosion-resistant structures have also been developed and several regulations have been issued by various agencies for explosive analysis and design. On the other hand, with the advent of new materials, the expansion of their application in civil engineering and their proper use in upgrading existing structures, a new perspective has been provided against these events. This study examines the penetration rate of a war projectile on a reinforced shear wall with alternate layers of composite and steel. The results show that the combination of concrete, steel and elastomer can be effective in reducing the effects of dynamic loads due to the impact of the war projectile. In this research, we will examine and reinforcing military places, political and military sites with steel shear walls with alternating layers of steel and elastomer. To do this, we first construct a 3D model of the shear wall structure and then process the model using the Abaqus analysis and simulation software, which is based on the finite element process under the war projectile. To investigate the damaging effects on the structure for reinforcement, we reinforce the structure with alternate layers of elastomer and steel and analyze it. After simulating the output contours such as stresses and strains, the displacements and the destructive effects of the structure are evaluated and analyzed