Reliability-Based Multi-Material 3D Topology Optimization: A Comparative Study Between SIMP and SESO Methods
Palavras-chave:
Multi-material topology optimization , SESO and SIMP, RBTO.Resumo
Topology optimization aims to improve structural design efficiency by determining the optimal material distribution within the solution domain. This paper presents an automated approach for three-dimensional multi-material topology optimization using the Solid Isotropic Material with Penalization (SIMP) and Smoothing-ESO (SESO) methods, implemented in MATLAB. The formulation employs hexahedral finite elements and a power-law interpolation scheme to minimize material discontinuities during the discrete optimization process. A three-dimensional linear elastic analysis is adopted for both methods, integrating commercial materials including steel, aluminum, and concrete. Additionally, the optimization program is coupled with a reliability-based topology optimization analysis module where Young's modulus, force, volume, and compliance are treated as random variables using the First-order Reliability Method (FORM), considering both normal and lognormal distributions with target reliability indices β = 3.0 and β = 2.5. Numerical examples, including a Michell-type structure and bridge design, demonstrate the method's effectiveness in achieving material efficiency while ensuring structural reliability. The results show significant reductions in high-performance material usage, confirming the approach's potential for practical engineering applications.Publicado
2025-12-01
Edição
Seção
Artigos
