Buckling analysis of 3D printed ABS thin cylinder at different percentage of infill’s

The buckling of thin cylinders is one in all the foremost-complicated phenomena in structural engineering. Buckling is a character study, which can be viewed due to sudden failure of engineering structure experienced by high compressive stress and it’s a structural instability that may lead the engineering structure in a failure mode. One in all the main standard of thin cylinders structures that, encounters compressive loads and these are known to be the buckling load-limiting factor. Therefore, it’s necessary to grasp the Buckling load factor. Complex designs are often uploaded from a CAD model and this project is anxious with the testing of mechanical behavior of plastic materials i.e.) ABS (Acrylonitrile Butadiene Styrene) and PLA (Polylactic Acid). It is often produced using additive manufacturing by a 3D printer machine. By varying the density of the material, mechanical behavior is often identified. The sturdiness and reliability of the ABS and PLA materials are high compared to the other material. This results in the manufacture of the merchandise of less cost and therefore the very best quality. Here the analysis for various percentage of infill is dole out in theoretically in ANSYS Software and experimentally, and similarity between the results is obtained.