Thileepan Stalin scite author profile

Material properties and composite structures play key roles in tailoring the performance of soft robots. Unfortunately, current design and fabrication approaches limit achievable complexity and functionality in these two categories and hinder soft robot performance. Here, an approach that allows design and direct fabrication of novel soft composite structures is presented. The process uses computational topology optimization to determine the required 3D composite structure of soft hyper‐elastic bodies. The direct fabrication of the soft composite structures using an all‐in‐one fabrication workflow with resilient silicone polymers enables precise tailoring of mechanical properties. By applying this approach to the design and fabrication of an underwater batoid‐inspired soft robot, significant swimming performance improvements is demonstrated. An optimized composite prototype displays 50% faster swimming speeds, 28% faster turning rates, and 55% smaller turning radii than un‐optimized benchmark prototypes.

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Flexible Fiber Interconnects for Soft Mechatronics

Jain

Stalin

Kanhere

et al. 2020

IEEE Robot. Autom. Lett.

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Thileepan Stalin

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Silicone/epoxy hybrid resins with tunable mechanical and interfacial properties for additive manufacture of soft robots

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Optimal Soft Composites for Under‐Actuated Soft Robots

Flexible Fiber Interconnects for Soft Mechatronics

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