Small strain plasticity: classical versus multifield formulation-Reference-Cited by-同舟云学术

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Small strain plasticity: classical versus multifield formulation

Published:2015-03-04 Issue:8 Volume:85 Page:1127-1145
ISSN:0939-1533
Container-title:Archive of Applied Mechanics
language:en
Short-container-title:Arch Appl Mech

Author:

Schröder Bettina,Kuhl Detlef

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering

Link

http://link.springer.com/content/pdf/10.1007/s00419-015-0984-9.pdf

Reference45 articles.

1. Ainsworth M., Oden J.: A Posteriori Error Estimation in Finite Element Analysis. Wiley, New York (2000)

2. Al-Rub, R., Darabi, M.: A thermodynamic framework for constitutive modeling of time- and rate-dependent materials. Part I: Theory. Int. J. Plast. 34, 61–92 (2012)

3. Ammar, K., Appolaire, B., Cailletaud, G., Feyel, F., Forest, S.: Finite element formulation of a phase field model based on the concept of generalized stresses. Comput. Mater. Sci. 45, 800–805 (2008)

4. Anand, L., Ames, N., Srivastava, V., Chester, S.: A thermo-mechanically coupled theory of large deformations of amorphous polymers. Part I: Formulation. Int. J. Plast. 25, 1474–1494 (2009)

5. Anand, L., Aslan, O., Chester, S.: A large-deformation gradient theory for elastic-plastic materials: strain softening and regularization of shear bands. Int. J. Plast. 31, 116–143 (2012)

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