Mechanical design and energy absorption of 3D novel hybrid lattice metamaterials 被引量：4

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摘要 In this paper,three-dimensional(3D)novel hybrid lattice structures with exceptional mechanical properties and energy absorbing performances were proposed,and experimental and finite element simulation comparisons were performed to demonstrate their potential in mechanical application.First,different types of basic cubic unit cells were designed for constructing three types of novel hybrid metamaterials,in which stepped circulation of different unit cells was conceived to generate architected metamaterials.Afterwards,quasi-static compression experiments and finite element simulations were performed to study the deformation process and failure mechanisms of as-fabricated hybrid metamaterials.The energy absorption efficiency,specific energy absorption(SEA)indicators,and energy absorption capabilities of different hybrid lattice metamaterials were compared and analyzed.The results show that the deformation mechanisms of novel hybrid lattice were beneficial for generating remarkable elevated densification strain,and the energy absorption efficiency can be tailored by altering the types or sizes of basic unit cells.Strain-hardening and bilinear features were also obtained.

作者 ZHANG Peng Biligetu QI DeXing XUE Rui LIU Kai HUANG ZhiXin WU WenWang LI Ying

机构地区 State Key Laboratory of Explosion Science and Technology Beijing Key Laboratory of Lightweight Multi-functional Composite Materials and Structures Department of Engineering Mechanics Inner Mongolia First Machinery Group Co.Ltd.

出处《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2021年第10期2220-2228,共9页 中国科学（技术科学英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.11702023,11972081,51305223).

关键词 hybrid lattice quasi-static compression densification strain energy absorption strain hardening BILINEAR

分类号 TH122 [机械工程—机械设计及理论] TB34 [一般工业技术—材料科学与工程]

作者简介 Corresponding authors:WU WenWang,email:wuwenwang@sjtu.edu.cn;Corresponding authors:LI Ying,email:bitliying@bit.edu.cn。

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