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Paper detail

Topology optimization of nonlinear periodically microstructured materials for tailored homogenized constitutive properties

A topology optimization method is presented for the design of periodic microstructured materials with prescribed homogenized nonlinear constitutive properties over finite strain ranges. The mechanical model assumes linear elastic isotropic materials, geometric nonlinearity at finite strain, and a quasi-static response. The optimization problem is solved by a nonlinear programming method and the sensitivities computed via the adjoint method. Two-dimensional structures identified using this optimization method are additively manufactured and their uniaxial tensile strain response compared with the numerically predicted behavior. The optimization approach herein enables the design and development of lattice-like materials with prescribed nonlinear effective properties, for use in myriad potential applications, ranging from stress wave and vibration mitigation to soft robotics.

preprint2020arXivOpen access
Reza BehrouMaroun Abi GhanemBrianna C. MacniderVimarsh VermaRyan AlveyJinho HongAshley F. EmeryHyunsun Alicia KimNicholas Boechler
Computational Engineering, Finance, and Sciencemath.OC
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Reza BehrouMaroun Abi GhanemBrianna C. MacniderVimarsh VermaRyan AlveyJinho HongAshley F. EmeryHyunsun Alicia KimNicholas Boechler

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