Investigation on the impact resistance of 3D printed nacre-like composites: Fid-Bau Portal

Investigation on the impact resistance of 3D printed nacre-like composites

Ko, Kwonhwan / Lee, Sangmin / Hwang, Young Kwang / Jin, Suyeong / Hong, Jung-Wuk

Abstract Patterned by the unique hierarchical architecture, nacre has exceptional impact resistance compared with the constituent materials. Hence, significant efforts have been devoted to developing new material systems with enhanced mechanical characteristics by duplicating such biological creatures. Although the key failure mechanisms inherent in nacre have been elucidated by numerous studies, guidelines for constituting optimized nacreous composites to yield the maximized mechanical performance have not been explored fully thus far. In this study, we suggest an optimal design of the nacre-like geometry through an integrated usage of parametric study, 3D printing, mechanical testing, and numerical analysis. The main design parameters of the nacre-like structure are derived by parametric study, and designed specimens are fabricated with the aid of 3D printing technology. Thereafter, the influence of the design parameters on the impact resistance is analyzed thoroughly with the drop-weight impact test. Additionally, an accurate numerical method is required to reduce the design period while satisfying the target performance of the structures. Therefore, the experiments are simulated by the finite element method, and the modeling techniques for the nacre-like composites are validated. This study can foster a feasible application of biomimetic composites in various industrial fields.

Highlights • Key parameters important to the impact resistance of the nacre-like composites are selected. • Relationships between the selected parameters are investigated. • The established relationships are verified through experiments and numerical studies. • A guideline for designing the optimal nacre-like composites is suggested.