正面光聚合实现平面到曲面的可编程形状变形

Translated title of the contribution: Programmable shape-shifting from planar sheets to curved geometries via front photopolymerization approach

Jinqiang Wang, Xiaosheng Cheng, Ning Dai, Dawei Li, Xin Zhou, Yunlong Tang

Research output: Contribution to journalArticleResearchpeer-review

Abstract

Transforming planar sheets into desired 3D configurations has emerged as a promising design methodology, which provides new means for the fabrication of the biotechnology, actuators, sensors, and engineering of complex metamaterials. Among various approaches to producing planar-to-3D structures, there are still limitations such as high cost, tedious procedures and non-free-standing operation. Considering the polymerization characteristics of photocurable resin in front photopolymerization process, a design method for transforming planar sheets to 3D configurations using mismatch stress is presented. Based on the influence of discrepant photo patterns on the polymerization degree and the distribution of shrinkage stress gradient along the curing thickness, the composite beam theory is proposed theoretically. Thus, the buckling deformation equations of the quasi-one-dimensional beam are derived to obtain the relation between the bending curvature and the exposure dose. On the basis of this, for the bifurcation and rebelliousness in the quasi-two-dimensional plane structure, the elastic potential energy function is established to calculate the energy density of the bending plane, which combines with finite element calculation to reveal the deformation geometry and stress distribution law. The final mechanical experiments as well as the shape transformation examples of petal, claw, icosahedron, and pyramid verify the feasibility of our approach.

Translated title of the contributionProgrammable shape-shifting from planar sheets to curved geometries via front photopolymerization approach
Original languageChinese
Pages (from-to)175-184 and 194
Number of pages11
JournalJixie Gongcheng Xuebao
Volume55
Issue number13
DOIs
Publication statusPublished - Jul 2019
Externally publishedYes

Keywords

  • Buckling deformation
  • Front photopolymerization
  • Self-folding
  • Shape-shifting

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