| Abstract Scope |
The Industrial Revolution will witness a proliferation of mechanisms that require investigation before implementation in industrial applications due to the rapid advancement of printing techniques, materials systems, and nanoscale progress in AM. These mechanisms address drawbacks like anisotropic microstructure and mechanical properties, restricted material selection, defects, and expensive costs. Because of these, the analytics methodology—as opposed to traditional test-and-trial trials and FEM—would be more equipped to keep up with this surge. This study looks at how processing parameters affect the evolution or configuration of a material's microstructure and how they impact the material's properties, including elastic modulus and Poisson's ratio in AM. The example process of LPBF will be characterized using physics-based approaches, focusing on texture, grain size, their mutual impact modeling, and influence on properties, residual stress, fatigue, etc. Titanium alloy was selected to validate this developing paradigm, but the materials systems are flexible. |