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Numerical Analysis of Open Hole Specimen Glass Fiber Reinforced Polymer

Numerical Analysis of Open Hole Specimen Glass Fiber Reinforced Polymer Abstract Finite element model is built to predict specimensize effect based on nominal strength. The progressive damage model is described completely and compared with experimental results of diferent scaling geometry. The finite element simulation uses the real mechanical and fracture properties of glass fiber reinforced epoxy laminates. The finite element results are in good agreement with the experimental results for both strength prediction, and direction of crack propagation of the fracture-processing zone. The proposed Finite element simulation can be used to define the location of critical section very well. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nonlinear Engineering de Gruyter

Numerical Analysis of Open Hole Specimen Glass Fiber Reinforced Polymer

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References (39)

Publisher
de Gruyter
Copyright
Copyright © 2014 by the
ISSN
2192-8010
eISSN
2192-8029
DOI
10.1515/nleng-2014-0014
Publisher site
See Article on Publisher Site

Abstract

Abstract Finite element model is built to predict specimensize effect based on nominal strength. The progressive damage model is described completely and compared with experimental results of diferent scaling geometry. The finite element simulation uses the real mechanical and fracture properties of glass fiber reinforced epoxy laminates. The finite element results are in good agreement with the experimental results for both strength prediction, and direction of crack propagation of the fracture-processing zone. The proposed Finite element simulation can be used to define the location of critical section very well.

Journal

Nonlinear Engineeringde Gruyter

Published: Sep 1, 2014

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