@inproceedings{fbf497ebe9b2425bb8e7b83d581c9d69,
title = "Finite element implementation of state variable-based viscoplasticity models",
abstract = "Implementation of state variable-based viscoplasticity models is made in a general purpose finite element code for structural applications of metals deformed at elevated temperature. Two constitutive models, i.e. Walker's and Robinson's models, are studied in conjunction with two implicit integration methods: the trapezoidal rule with Newton-Raphson iterations and an asymptotic integration algorithm. A comparison is made between the two integration methods, and the later appears to be computationally more appealling in terms of numerical accuracy and CPU time. However, in order to make the asymptotic algorithm robust, it is necessary to include a self adaptive scheme with subincremental step control and error checking of the Jacobian matrix at the integration points. Three examples are given to illustrate the numerical aspects of the integration methods tested.",
author = "I. Iskovitz and Chang, \{T. Y.P.\} and Saleeb, \{A. F.\}",
year = "1991",
language = "English",
isbn = "0791808351",
series = "American Society of Mechanical Engineers, Materials Division (Publication) MD",
publisher = "Publ by ASME",
pages = "307--321",
booktitle = "American Society of Mechanical Engineers, Materials Division (Publication) MD",
note = "Winter Annual Meeting of the American Society of Mechanical Engineers ; Conference date: 01-12-1991 Through 06-12-1991",
}