Yisong Qiu scite author profile

A coupling of moving morphable void and component approach for the topology optimization of hydrogel structures involving recoverable large deformation is proposed in this paper. In this approach, the geometric parameters of moving morphable voids and components are set as design variables to respectively describe the outline and material distribution of hydrogel structures for the first time. To facilitate the numerical simulation of large deformation behavior of hydrogel structures during the optimization process, the design variables are mapped to the density field of the design domain and the density field is then used to interpolate the strain energy density function of the element. Furthermore, the adjoint sensitivity of the optimization formulation is derived and combined with the gradient-based algorithm to solve the topology optimization problem effectively. Finally, two representative numerical examples of the optimization of isotropic hydrogel structures are used to prove the effectiveness of the proposed method, and the optimization design of an anisotropic bionic hydrogel structure is presented to illustrate the applicability of the method. Experimental results are also presented to demonstrate that the explicit topologies obtained from the method can be directly used in the manufacture of hydrogel based soft devices.

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A solid-shell finite element method for the anisotropic swelling of hydrogels with reinforced fibers

Wang

Qiu

Zhang

et al. 2021

European Journal of Mechanics - A/Solids

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Yisong Qiu

Biomimetic Janus photonic soft actuator with structural color self-reporting

Explicit phase-field total Lagrangian material point method for the dynamic fracture of hyperelastic materials

Coupling Moving Morphable Voids and Components Based Topology Optimization of Hydrogel Structures Involving Large Deformation

A solid-shell finite element method for the anisotropic swelling of hydrogels with reinforced fibers

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