The Mathematics of Finite Elements and Applications X 2000
DOI: 10.1016/b978-008043568-8/50004-3
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Modelling and Finite Element Analysis of Applied Polymer Viscoelasticity Problems

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Cited by 2 publications
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“…Recent discussions on the origin, mathematics and application of the multiplicative split are provided by Lubarda (2004), Gupta et al (2007), and Reina et al (2018). Shaw et al (1999) describe viscoelastic material models and discuss their numerical treatment including spatial adaptivity of the discretization. Miehe and Keck (2000) present a model for filled rubbery polymers considering a superimposed finite elasticviscoelastic-plastoelastic stress response with damage and they discuss its numerical implementation.…”
Section: Introductionmentioning
confidence: 99%
“…Recent discussions on the origin, mathematics and application of the multiplicative split are provided by Lubarda (2004), Gupta et al (2007), and Reina et al (2018). Shaw et al (1999) describe viscoelastic material models and discuss their numerical treatment including spatial adaptivity of the discretization. Miehe and Keck (2000) present a model for filled rubbery polymers considering a superimposed finite elasticviscoelastic-plastoelastic stress response with damage and they discuss its numerical implementation.…”
Section: Introductionmentioning
confidence: 99%
“…Recent discussions on the origin, mathematics, and application of the multiplicative split are provided. [48][49][50] Shaw et al 51 describe viscoelastic material models and discuss their numerical treatment including spatial adaptivity of the discretization. Miehe and Keck 52 present a model for filled rubbery polymers considering a superimposed finite elastic-viscoelastic-plastoelastic stress response with damage and they discuss its numerical implementation.…”
Section: Introductionmentioning
confidence: 99%