Bioinspired Construction of Micronano Lignocellulose into an Impact Resistance “Wooden Armor” With Bouligand Structure
Yipeng Chen, Baokang Dang, Jinzhou Fu, Jiayi Zhang, Haoyue Liang, Qingfeng Sun, Tianyou Zhai, Huiqiao Li
Abstract
scale-inspired structures that can serve as "wood armor" with impressive damage tolerance. By accurately assembling a rigid laminated lignocellulose, with a soft shear-thickened fluid interlayer, into a Bouligand-like structure, the artificial wooden armor exhibits a 10-fold increase in impact resistance. This observation is similar to that of typical engineering materials (e.g., ceramics, glass, and alloys). However, our proposed material structure has the capability of blocking the enormous impact of a bullet while notably having approximately half the density of typical engineering materials. The high durability and damage resistance of wooden armor effectively prevents catastrophic damage when it is impacted upon. The design strategy presents a method for lightweight, high-performance, and sustainable bioinspired materials for special security applications.