Journal of Materiomics (Sep 2020)
The red deer antler: Bioinspired design of an AlSi composite with a fenestrated network-particle structure
Abstract
Conventional AlSi materials always have a coarse and discontinuous Si structure, which limits their application as thermal management materials. Fortunately, nature has evolved efficient strategies to form complex microstructures that exhibit excellent wear resistance and thermal properties; one such example is found in the red deer antler. Here, inspired by the antler structure, AlSi composites with a novel fenestrated network-particle structure (FN) and with a common isolated island structure (II) are designed and prepared. Subsequently, the dynamic formation of FN is tracked and studied using computational fluid dynamics (CFD) simulation. To investigate the reinforcement mechanisms of FN, the wear resistances and thermal properties of FN and II are compared and analyzed. Simulation and experimental results show that the reconstruction of a semi-continuous structure promotes the formation of a striated structure, whereas flowing Si particles provide some sites for the formation of the fenestrated structure. The dynamic formation of FN is strongly influenced by the convection–diffusion process and the flow path. Moreover, this biomimetic FN structure exhibits better wear resistance and thermal properties than II, owing to its strong structural support and high expansion resistance. This work is expected to provide new perspectives on the microstructural design of thermal management materials with good wear resistance.
