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Instability-induced pattern generation in architectured materials — A review of methods

Authors
  • AZULAY, Rachel
  • COMBESCURE, Christelle
  • DIRRENBERGER, Justin
Publication Date
Apr 01, 2023
Source
SAM : Science Arts et Métiers
Keywords
Language
English
License
Green

Abstract

Architectured materials exhibit unconventional properties directly linked to their geometry. When composed of slender elements, architectured materials can undergo large deformations exhibiting geometric non-linearities through buckling or snapping behaviours of the cell walls. This can create a new pattern in the material with different properties than the original structure. In this article, we present a review of methods for studying pattern generating architectured materials caused by elastic instabilities. We start by reviewing the relevant studies on a classical example : hexagonal honeycombs under compression. We highlight their importance in identifying the underlying bifurcation phenomenon and their contributions to the elaboration of methods for studying mesoscopic (unit-cell length) pattern changes in architectured materials. We then exhaustively review the methods and tools used up to now to study the post-bifurcated behaviour of such materials subject to elastic instabilities.

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