Finite-distance singularities in the tearing of thin sheets

E. Bayart; A. Boudaoud; M. Adda-Bedia

doi:10.1103/PhysRevLett.106.194301

Finite-distance singularities in the tearing of thin sheets

E. Bayart, A. Boudaoud, M. Adda-Bedia

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate the interaction between two cracks propagating quasistatically in a thin sheet. Two different experimental geometries allow us to tear sheets by imposing an out-of-plane shear loading. A single tear propagates in a straight line independently of its position in the sheet. In contrast, we find that two tears converge along self-similar paths and annihilate each other. These finite-distance singularities display geometry-dependent similarity exponents, which we retrieve using scaling arguments based on a balance between the stretching and the bending of the sheet close to the tips of the cracks.

Original language	English
Article number	194301
Journal	Physical Review Letters
Volume	106
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevLett.106.194301
Publication status	Published - 11 May 2011

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10.1103/PhysRevLett.106.194301

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title = "Finite-distance singularities in the tearing of thin sheets",

abstract = "We investigate the interaction between two cracks propagating quasistatically in a thin sheet. Two different experimental geometries allow us to tear sheets by imposing an out-of-plane shear loading. A single tear propagates in a straight line independently of its position in the sheet. In contrast, we find that two tears converge along self-similar paths and annihilate each other. These finite-distance singularities display geometry-dependent similarity exponents, which we retrieve using scaling arguments based on a balance between the stretching and the bending of the sheet close to the tips of the cracks.",

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N2 - We investigate the interaction between two cracks propagating quasistatically in a thin sheet. Two different experimental geometries allow us to tear sheets by imposing an out-of-plane shear loading. A single tear propagates in a straight line independently of its position in the sheet. In contrast, we find that two tears converge along self-similar paths and annihilate each other. These finite-distance singularities display geometry-dependent similarity exponents, which we retrieve using scaling arguments based on a balance between the stretching and the bending of the sheet close to the tips of the cracks.

AB - We investigate the interaction between two cracks propagating quasistatically in a thin sheet. Two different experimental geometries allow us to tear sheets by imposing an out-of-plane shear loading. A single tear propagates in a straight line independently of its position in the sheet. In contrast, we find that two tears converge along self-similar paths and annihilate each other. These finite-distance singularities display geometry-dependent similarity exponents, which we retrieve using scaling arguments based on a balance between the stretching and the bending of the sheet close to the tips of the cracks.

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DO - 10.1103/PhysRevLett.106.194301

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JO - Physical Review Letters

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Finite-distance singularities in the tearing of thin sheets

Abstract

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