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A Simple Matlab Code for Material Design Optimization Using Reduced Order Models.

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  • 1Institute of Structural Analysis and Antiseismic Research, School of Civil Engineering, National Technical University of Athens, 9, Heroon Polytechniou Str., Zografou Campus, GR-15780 Athens, Greece.

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Summary
This summary is machine-generated.

This study presents a Matlab code for topology optimization in material design, incorporating three model order reduction (MOR) methods to cut computational costs. The code includes proper orthogonal decomposition (POD), on-the-fly reduced order model construction, and approximate reanalysis (AR).

Keywords:
MatlabPODapproximate reanalysishomogenizationmicrostructureon-the-fly constructionreduced basisreduced order modelstopology optimization

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Area of Science:

  • Computational Materials Science
  • Mechanical Engineering
  • Optimization Methods

Background:

  • Topology optimization for material design with extreme properties is computationally intensive.
  • The finite element method (FEM) is central to solving equilibrium equations, contributing significantly to computational cost.
  • Model order reduction (MOR) techniques offer a pathway to mitigate these computational demands.

Purpose of the Study:

  • To develop and present a simplified Matlab code for topology optimization in material design.
  • To integrate and demonstrate three distinct MOR approaches within the topology optimization framework.
  • To provide a complete, functional code for researchers and practitioners.

Main Methods:

  • Topology optimization formulation for material design.
  • Finite Element Method (FEM) for solving equilibrium equations.
  • Implementation of three MOR approaches: Proper Orthogonal Decomposition (POD), on-the-fly reduced order model construction, and Approximate Reanalysis (AR).

Main Results:

  • A functional Matlab code integrating topology optimization with three MOR techniques is successfully developed.
  • The code facilitates the reduction of computational cost associated with solving equilibrium systems.
  • Demonstration of POD, on-the-fly MOR, and AR within a practical material design context.

Conclusions:

  • The presented Matlab code offers an efficient solution for topology optimization in material design.
  • The integration of MOR techniques significantly reduces the computational burden of FEM-based simulations.
  • The provided code serves as a valuable resource for advancing research in optimal material design.