Analysis of Ti6Al4V Alloy Prototype Fabricated via Selective Laser Melting

During laser-based additive manufacturing, powder is selectively fused layer by to achieve the desired shape. Powder also serves as an integrated support framework, allowing for a wide range of material alternatives. Selecting suitable whether it should be pure or composite such titanium-based alloy which have wider application in biomedical industries make surgical implants and orthodontic appliances, requires good fatigue strength. The purpose this analysis obtain better understanding manufacturing process with help finite element simulations. effect variation laser power, scan speed thickness are considered essential parameters thermal mechanical part. One one varying thickness, beam radius, velocity generate stress distribution, total distortion, solid fraction Comparing results evaluating most appropriate result from this. Keeping records these validating fabricated