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Spinodal architected materials with tunable anisotropy unify optimal design and manufacturing of multiscale structures. By locally varying the spinodal class, orientation, and porosity during topology optimization, a large portion of the anisotropic material space is exploited such that material is efficiently placed along principal stress trajectories at the microscale. Additionally, the bicontinuous,...
Spinodal Architected Materials
In article number 2109304, Glaucio H. Paulino and co‐workers report spinodal architected materials with tunable anisotropy to unify optimal design and manufacturing of multiscale structures. Mechanical anisotropy and porosity are spatially tailored to directly target mechanical function (e.g., stiffness) and indirectly promote biological function (e.g., fluid transport...
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