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Fracture Diodes: Directional Asymmetry of Fracture Toughness.
Brodnik, N R; Brach, S; Long, C M; Ravichandran, G; Bourdin, B; Faber, K T; Bhattacharya, K.
Afiliação
  • Brodnik NR; Department of Mechanical Engineering, University of California, Santa Barbara, California 93106, USA.
  • Brach S; Laboratoire de Mécanique des Solides, École Polytechnique, 91120 Palaiseau, France.
  • Long CM; Division of Engineering and Applied Science, California Institute of Technology, Pasadena, California 91125, USA.
  • Ravichandran G; Division of Engineering and Applied Science, California Institute of Technology, Pasadena, California 91125, USA.
  • Bourdin B; Department of Mathematics, Department of Mechanical & Industrial Engineering, Louisiana State University, Baton Rouge, Louisiana 70803, USA.
  • Faber KT; Division of Engineering and Applied Science, California Institute of Technology, Pasadena, California 91125, USA.
  • Bhattacharya K; Division of Engineering and Applied Science, California Institute of Technology, Pasadena, California 91125, USA.
Phys Rev Lett ; 126(2): 025503, 2021 Jan 15.
Article em En | MEDLINE | ID: mdl-33512220
ABSTRACT
Toughness describes the ability of a material to resist fracture or crack propagation. It is demonstrated here that fracture toughness of a material can be asymmetric, i.e., the resistance of a medium to a crack propagating from right to left can be significantly different from that to a crack propagating from left to right. Such asymmetry is unknown in natural materials, but we show that it can be built into artificial materials through the proper control of microstructure. This paves the way for control of crack paths and direction, where fracture-when unavoidable-can be guided through predesigned paths to minimize loss of critical components.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2021 Tipo de documento: Article
Texto completo
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2021 Tipo de documento: Article