A new arc-length control method based on the rates of the internal and the dissipated energy-Reference-Cited by-同舟云学术

A new arc-length control method based on the rates of the internal and the dissipated energy

Published:2016-03-07 Issue:1 Volume:33 Page:100-115
ISSN:0264-4401
Container-title:Engineering Computations
language:en
Short-container-title:

Author:

May Stefan,Vignollet Julien,de Borst René

Abstract

Purpose – The purpose of this paper is to introduce a new arc-length control method for physically non-linear problems based on the rates of the internal and the dissipated energy. Design/methodology/approach – In this paper, the authors derive from the second law of thermodynamics the arc-length method based on the rate of the dissipated energy and from the time derivative of the energy density the arc-length method based on the rate of the internal energy. Findings – The method requires only two parameters and can automatically trace equilibrium paths which display multiple snap-through and/or snap-back phenomena. Originality/value – A fully energy-based control procedure is developed, which facilitates switching between dissipative and non-dissipative arc-length control equations in a natural way. The method is applied to a plate with an eccentric hole using the phase field model for brittle fracture and to a perforated beam using interface elements with decohesion.

Publisher

Emerald

Subject

Computational Theory and Mathematics,Computer Science Applications,General Engineering,Software

Reference18 articles.

1. Amor, H. , Marigo, J.-J. and Maurini, C. (2009), “Regularized formulation of the variational brittle fracture with unilateral contact: numerical experiments”, Journal of the Mechanics and Physics of Solids , Vol. 57 No. 8, pp. 1209-1229.

2. Borden, M.J. , Verhoosel, C.V. , Scott, M.A. , Hughes, T.J.R. and Landis, C.M. (2012), “A phase-field description of dynamic brittle fracture”, Computer Methods in Applied Mechanics and Engineering , Vols 217-220, pp. 77-95.

3. Crisfield, M.A. (1981), “A fast incremental/iterative solution procedure that handles ‘snap-through’”, Computers & Structures , Vol. 13 Nos 1-3, pp. 55-62.

4. Crisfield, M.A. (1982), “Local instabilities in the non-linear analysis of reinforced concrete beams and slabs”, Institution of Civil Engineers, Proceedings, Vol. 73, pp. 135-145.

5. de Borst, R. (1987), “Computation of post-bifurcation and post-failure behavior of strain-softening solids”, Computers & Structures , Vol. 25 No. 2, pp. 211-224.

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