Complex Ordered Patterns in Mechanical Instability Induced Geometrically Frustrated Triangular Cellular Structures | Zendy

Sung Hoon Kang | Zendy; Sicong Shan | Zendy; Andrej Košmrlj | Zendy; Wim L. Noorduin | Zendy; Samuel Shian | Zendy; James C. Weaver | Zendy; David R. Clarke | Zendy; Katia Bertoldi | Zendy

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Complex Ordered Patterns in Mechanical Instability Induced Geometrically Frustrated Triangular Cellular Structures

Author(s) -

Sung Hoon Kang,

Sicong Shan,

Andrej Košmrlj,

Wim L. Noorduin,

Samuel Shian,

James C. Weaver,

David R. Clarke,

Katia Bertoldi

Publication year - 2014

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.112.098701

Subject(s) - frustration , instability , buckling , space (punctuation) , physics , geometry , condensed matter physics , mechanics , computer science , mathematics , thermodynamics , operating system

Geometrical frustration arises when a local order cannot propagate throughout the space because of geometrical constraints. This phenomenon plays a major role in many systems leading to disordered ground-state configurations. Here, we report a theoretical and experimental study on the behavior of buckling-induced geometrically frustrated triangular cellular structures. To our surprise, we find that buckling induces complex ordered patterns which can be tuned by controlling the porosity of the structures. Our analysis reveals that the connected geometry of the cellular structure plays a crucial role in the generation of ordered states in this frustrated system.

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