Investigation of Static Structure Effect According to Axial Coordinates by Using Finite Element Method in Ansys Workbench Software of AISI 310 Austenitic Stainless Cylindrical Model Steel

AISI 310 quality austenitic stainless steel, C ratio less than 0.25, is one of the most widely used and most durable steels designed for industrial applications. Finite element method (FEM) is a metric that provides the solution of complex engineering problems with controllable parts that can be reduced by the base. Applied in this study, 40 mm outer diameter, AISI 310 stainless steel cylinder containing mechanical properties are modeled in Ansys Workbench 12.0 module. The design is performed by fixing the cylindrical steel from the substrate support zone. The static structural solution of the steel was analyzed by applying a force of 1000 N in the -y-axis direction from the steel top plate zone. In Ansys software, deformation deformation of cylindrical steel, simulating solution in Workbench module and finite element method, max.- min. stress and elastic stresses, and vectorial component analyzes. As a result of the analyzes, it was observed that the charge distributions effected by the static structure of the cylindrical steel were concentrated in the upper and lower regions.