Design of materials with prescribed nonlinear properties

Design of materials with prescribed nonlinear properties

We systematically design materials using topology optimization to achieve prescribed nonlinear properties under finite deformation. Instead of a formal homogenization procedure, a numerical experiment is proposed to evaluate the material performance in longitudinal and transverse tensile tests under...

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Veröffentlicht in:Journal of the mechanics and physics of solids 2014-09, Vol.69, p.156-174
Hauptverfasser: Wang, F., Sigmund, O., Jensen, J.S.
Format: Artikel
Sprache:eng
Schlagworte:
Deformation
Design engineering
Finite deformation
Homogenizing
Material design
Mathematical analysis
Nonlinear properties
Nonlinearity
Optimization
Poissons ratio
Stress-strain relationships
Two dimensional
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Zusammenfassung:We systematically design materials using topology optimization to achieve prescribed nonlinear properties under finite deformation. Instead of a formal homogenization procedure, a numerical experiment is proposed to evaluate the material performance in longitudinal and transverse tensile tests under finite deformation, i.e. stress–strain relations and Poisson׳s ratio. By minimizing errors between actual and prescribed properties, materials are tailored to achieve the target. Both two dimensional (2D) truss-based and continuum materials are designed with various prescribed nonlinear properties. The numerical examples illustrate optimized materials with rubber-like behavior and also optimized materials with extreme strain-independent Poisson׳s ratio for axial strain intervals of εi∈[0.00,0.30].
ISSN:0022-5096
DOI:10.1016/j.jmps.2014.05.003