Mechanical behavior of glass/epoxy tubes under combined static loading. Part II: Validation of FEA progressive damage model |
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| Authors: | Alexandros E. Antoniou Christoph Kensche Theodore P. Philippidis |
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| Affiliation: | aDepartment of Mechanical Engineering and Aeronautics, University of Patras, P.O. Box 1401, GR 26504 Panepistimioupolis, Rio, Greece;bHexion Specialty Chemicals Stuttgart GmbH, Am Ostkai 21/22, D-70327 Stuttgart, Germany |
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| Abstract: | ![]()
Experimental results from a series of biaxial static tests of E-Glass/Epoxy tubular specimens [±45]2, were compared successfully with numerical predictions from thick shell FE calculations. Stress analysis was performed in a progressive damage sense consisting of layer piece-wise linear elastic behavior, simulating lamina anisotropic non-linear constitutive equations, failure mode-dependent criteria and property degradation strategies. The effect of accurate modeling of non-linear shear stress–strain response, dependent on the plane stress field developed, was proved of great importance for the numerical FEA predictions, concerning macroscopic stress–strain response. Ultimate load prediction was influenced more decisively when degradation strategies for the compressive strength along the fiber direction were considered. |
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| Keywords: | B. Non-linear behavior B. Stress– strain curves C. Failure criterion C. Finite element analysis (FEA) C. Damage mechanics |
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