Jinxiang Chen

TL;DR: This paper reviews the research progress made in China regarding the microstructure of the forewing trabeculae, their anti-peeling and anti-collisional mechanical properties, the three-dimensional microstructures of theForewings, their modeling, and their mechanical properties and describes an optimized double thin-walled biomimetic structure that possesses excellent absorption and buffering properties.

TL;DR: It is proven that even when the single integrated method (SIM) is used to prepare BEPs, the properties remain superior to those of HPs by a factor of several; this finding lays the foundation for accelerating the commercialization of B EPs based on modern manufacturing processes.

TL;DR: It is shown that the beetle forewing contains a fully integrated honeycomb plate rather than a traditional "honeycomb" structure, and it is envisioned that it will introduce an alternative to the traditional assembly method of manufacturing honeycomb plates.

TL;DR: In this article, the compressive deformation mode of beetle elytron plates (BEPs) and their strengthening mechanism of high energy absorption were investigated, with the following results: compared with honeycomb plates, BEPs are significantly increased.

TL;DR: In this article, the forewing of a beetle, Allomyrina dichotoma, has a completely integrated trabecular honeycomb structure and a natural edge sealing structure.