Rayleigh-taylor instability in elastoplastic solids: A local catastrophic process

I. Maimouni; J. Goyon; E. Lac; T. Pringuey; J. Boujlel; X. Chateau; P. Coussot

doi:10.1103/PhysRevLett.116.154502

Rayleigh-taylor instability in elastoplastic solids: A local catastrophic process

I. Maimouni
, J. Goyon
, E. Lac
, T. Pringuey
, J. Boujlel
, X. Chateau
, P. Coussot

Université Paris-Est
Schlumberger Corp.
IFPEN

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

Abstract

We show that the Rayleigh-Taylor instability in elastoplastic solids takes the form of local perturbations penetrating the material independently of the interface size, in contrast with the theory for simple elastic materials. Then, even just beyond the stable domain, the instability abruptly develops as bursts rapidly moving through the other medium. We show that this is due to the resistance to penetration of a finger which is minimal for a specific finger size and drops to a much lower value beyond a small depth (a few millimeters).

Original language	English
Article number	154502
Journal	Physical Review Letters
Volume	116
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.116.154502
Publication status	Published - 15 Apr 2016
Externally published	Yes

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10.1103/PhysRevLett.116.154502

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title = "Rayleigh-taylor instability in elastoplastic solids: A local catastrophic process",

abstract = "We show that the Rayleigh-Taylor instability in elastoplastic solids takes the form of local perturbations penetrating the material independently of the interface size, in contrast with the theory for simple elastic materials. Then, even just beyond the stable domain, the instability abruptly develops as bursts rapidly moving through the other medium. We show that this is due to the resistance to penetration of a finger which is minimal for a specific finger size and drops to a much lower value beyond a small depth (a few millimeters).",

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AU - Goyon, J.

AU - Lac, E.

AU - Pringuey, T.

AU - Boujlel, J.

AU - Chateau, X.

AU - Coussot, P.

PY - 2016/4/15

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AB - We show that the Rayleigh-Taylor instability in elastoplastic solids takes the form of local perturbations penetrating the material independently of the interface size, in contrast with the theory for simple elastic materials. Then, even just beyond the stable domain, the instability abruptly develops as bursts rapidly moving through the other medium. We show that this is due to the resistance to penetration of a finger which is minimal for a specific finger size and drops to a much lower value beyond a small depth (a few millimeters).

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DO - 10.1103/PhysRevLett.116.154502

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Rayleigh-taylor instability in elastoplastic solids: A local catastrophic process

Abstract

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