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A progressive damage model of textile composites on meso-scale using finite element method: static damage analysis

(2014) JOURNAL OF COMPOSITE MATERIALS. 48(25). p.3091-3109
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Abstract
A meso-scale finite element model for static damage in textile composites was established. The impregnated yarn is taken as homogeneous and transverse isotropic material, whose mechanical properties are calculated using Chamis' equations. The damage modes are determined by using the Tsai-Wu criterion and additional criteria. The Murakami damage tensor is used to calculate the post-damage stiffness matrix. The model has been validated using plain weave and twill weave carbon-epoxy composites. The initiation of inter-fiber matrix cracks and fiber rupture were analyzed using this meso-FE model.
Keywords
HOMOGENIZATION, BEHAVIOR, STRESS, MECHANICS

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Citation

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Chicago
Xu, J, SV Lomov, I Verpoest, Subbareddy Daggumati, Wim Van Paepegem, Joris Degrieck, and M Olave. 2014. “A Progressive Damage Model of Textile Composites on Meso-scale Using Finite Element Method: Static Damage Analysis.” Journal of Composite Materials 48 (25): 3091–3109.
APA
Xu, J, Lomov, S., Verpoest, I., Daggumati, S., Van Paepegem, W., Degrieck, J., & Olave, M. (2014). A progressive damage model of textile composites on meso-scale using finite element method: static damage analysis. JOURNAL OF COMPOSITE MATERIALS, 48(25), 3091–3109.
Vancouver
1.
Xu J, Lomov S, Verpoest I, Daggumati S, Van Paepegem W, Degrieck J, et al. A progressive damage model of textile composites on meso-scale using finite element method: static damage analysis. JOURNAL OF COMPOSITE MATERIALS. LONDON: SAGE PUBLICATIONS LTD; 2014;48(25):3091–109.
MLA
Xu, J, SV Lomov, I Verpoest, et al. “A Progressive Damage Model of Textile Composites on Meso-scale Using Finite Element Method: Static Damage Analysis.” JOURNAL OF COMPOSITE MATERIALS 48.25 (2014): 3091–3109. Print.
@article{8029400,
  abstract     = {A meso-scale finite element model for static damage in textile composites was established. The impregnated yarn is taken as homogeneous and transverse isotropic material, whose mechanical properties are calculated using Chamis' equations. The damage modes are determined by using the Tsai-Wu criterion and additional criteria. The Murakami damage tensor is used to calculate the post-damage stiffness matrix. The model has been validated using plain weave and twill weave carbon-epoxy composites. The initiation of inter-fiber matrix cracks and fiber rupture were analyzed using this meso-FE model.},
  author       = {Xu, J and Lomov, SV and Verpoest, I and Daggumati, Subbareddy and Van Paepegem, Wim and Degrieck, Joris and Olave, M},
  issn         = {0021-9983},
  journal      = {JOURNAL OF COMPOSITE MATERIALS},
  language     = {eng},
  number       = {25},
  pages        = {3091--3109},
  publisher    = {SAGE PUBLICATIONS LTD},
  title        = {A progressive damage model of textile composites on meso-scale using finite element method: static damage analysis},
  url          = {http://dx.doi.org/10.1177/0021998313507008},
  volume       = {48},
  year         = {2014},
}

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