Deformation in the wrinkle–crease transformation

機関リポジトリ 機関リポジトリ (HANDLE)

この論文をさがす

説明

We investigate deformation in the wrinkle–crease transformation to reveal the missing link between the wrinkling and creasing instabilities, which occur on the surface of elastomers under compression. Plane-strain finite element (FE) analysis is performed by combining a nonlinear perturbation approach to find two bifurcated solutions for the flat surface in a metastable state. The first solution is the stable deformation path for crease evolution, and the second solution is the previously unknown unstable deformation path from wrinkling to creasing. The two deformation paths are not independent, and they are connected at the critical strain for creasing 𝜀c. The resulting deformation at 𝜀c acts as a precursive deformation to cause creasing. Although the unstable path is initiated by the wrinkling instability as a bifurcation, the creasing instability (i.e., 𝜀c) is interpreted as the singular point at which the unstable path switches to the stable path. A chain reaction model is developed to describe the mechanism and deformation of the wrinkle– crease transformation, and it shows good agreement with the FE prediction within an inevitable limitation of FEs.

収録刊行物

詳細情報 詳細情報について

問題の指摘

ページトップへ