Peridynamic modeling is a relatively new approach in the field of computational mechanics that allows for the simulation of material behavior at both the micro and macro scales. Instead of relying on traditional continuum mechanics principles, peridynamic modeling considers the interactions between individual material particles or points within a body. This approach is particularly useful for studying materials with complex behaviors such as cracking, fragmentation, and material failure. Peridynamic modeling can be applied to a wide range of engineering applications, including structural mechanics, fracture mechanics, and materials science. By treating material as a collection of interacting points rather than a continuous medium, peridynamic modeling allows for more accurate predictions of material behavior under different loading conditions. It also offers the ability to capture localized damage and failure mechanisms that traditional models may overlook. Overall, peridynamic modeling is a promising and versatile tool that is increasingly being used in research and engineering applications to improve our understanding of material behavior and performance.