Topology Optimization Design of 3D Continuum Structure with Reserved Hole Based on Variable Density Method

• Main Authors: Bai Shiye, Zhu Jiejiang
• Format: Article
• Language: English
• Published: Eastern Macedonia and Thrace Institute of Technology 2016-05-01
• Series: Journal of Engineering Science and Technology Review
• Subjects: Topology Optimization; Reserved Hole; Multiple Loading Conditions; Variable Density Method; MATLAB
• Online Access: http://www.jestr.org/downloads/Volume9Issue2/fulltext20922016.pdf

An objective function defined by minimum compliance of topology optimization for 3D continuum structure was established to search optimal material distribution constrained by the predetermined volume restriction. Based on the improved SIMP (solid isotropic microstructures with penalization) model and the new sensitivity filtering technique, basic iteration equations of 3D finite element analysis were deduced and solved by optimization criterion method. All the above procedures were written in MATLAB programming language, and the topology optimization design examples of 3D continuum structure with reserved hole were examined repeatedly by observing various indexes, including compliance, maximum displacement, and density index. The influence of mesh, penalty factors, and filter radius on the topology results was analyzed. Computational results showed that the finer or coarser the mesh number was, the larger the compliance, maximum displacement, and density index would be. When the filtering radius was larger than 1.0, the topology shape no longer appeared as a chessboard problem, thus suggesting that the presented sensitivity filtering method was valid. The penalty factor should be an integer because iteration steps increased greatly when it is a noninteger. The above modified variable density method could provide technical routes for topology optimization design of more complex 3D continuum structures in the future.