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Title
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A new overall nonlinear damage model for fiber metal laminates based on continuum damage mechanics
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Type
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JournalPaper
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Keywords
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Fiber metal laminates Continuum damage mechanics Finite element method Overall damage model
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Abstract
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Fiber Metal Laminates (FMLs) are hybrid composites made of interlacing layers of thin metal and fiber reinforced layers. In this work, a new overall damage model is developed to estimate the damage of FML considering the influence of stress triaxiality. The parameters of the damage model were determined using tensile test and iterative FE optimization for each sub-layer. Moreover, the stiffness degradation test was carried out to validate the proposed model for FML plain specimen. Additionally, notched FML specimens were used to simulate the material behavior under more complicated states of stress by implementing the proposed damage model in MSC MARC commercial FE code. A reasonable agreement was obtained between the FE and the experimental results for plain and notched FML specimens. The results indicated that the proposed model not only predicts the strong nonlinear behavior of plain and notched specimens, but also can estimate the failure strain with sufficient accuracy
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Researchers
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Ehsan Khademi (Not In First Six Researchers), Andrew Ruggiero (Fifth Researcher), Gianluca Iannitti (Fourth Researcher), Nicola Bonora (Third Researcher), Gholam Hossein Majzoobi (Second Researcher), (First Researcher)
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