Abstract Sandwich panel is a promising engineering structure, attracting more and more research attention. Most of current sandwich panels are constructed with plane skins and lattice cores via traditional fabrication processes. In this work, the skin faces of sandwich panels are designed by the freeform T-spline surfaces. The triply periodic minimal surface (TPMS) structures can be accurately generated as porous internal cores. In order to evaluate the performances of TPMS units, a cross-section analysis framework is developed. Based on that, an improved particle swarm optimization (IPSO) algorithm is discussed to seek optimal parameters. Moreover, considering the multifunctional requirements of actual applications, a constrained improved particle swarm optimization (CIPSO) algorithm is introduced to acquire both ideal mechanical and structural performances. Eventually, the designed sandwich panels can be fabricated by the state-of-the-art additive manufacturing technology. Experimental results validate the effectiveness of the presented design method and performance optimization algorithms.

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