Efficient Computational Analysis of Silicon Dioxide Nano-Composites Utilizing ANSYS for Structural and Functional Optimization

The development and use of innovative engineering materials as well as the Finite Element Method (FEM) in structural analysis are examined in this study. It emphasizes the important developments in material science that occurred during World War II, with particular attention on the creation of superalloys, composites, and nanomaterials, and their crucial roles in the nuclear and aerospace industries. The paper highlights the significance of FEM in contemporary engineering by exploring its adaptability and problems in studying complex structures. ANSYS software is used to analyze two distinct material specimens: a control without nanofillers, and one with silicon dioxide nanofillers. The study highlights the need of precise modeling and analysis in engineering designs and highlights the role that FEM plays in forecasting the behavior of composite materials under different circumstances. It also considers the historical background of these materials and techniques, illustrating how they have influenced engineering and technology today.