2014
DOI: 10.1590/s1679-78252014000200002
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Finite element analysis for mechanical characterization of 4D inplane carbon/carbon composite with imperfect microstructure

Abstract: Finite element mesh of multi-directional 4D carbon/carbon (C/C) composite was reconstructed from 2D images obtained by X-ray tomography. Thus, imperfections in the composite such as voids, misalignment and cross-section distortion of the fibre bundles were directly incorporated in the finite element mesh. 2D images of the composite were also used for the characterization of the porosity in the composite. The effect of these micro structural imperfections was studies by assuming perfect bonding at the bundle/ma… Show more

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Cited by 14 publications
(3 citation statements)
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“…A wide variety of models have been proposed to model imperfections in composites. Sharma et al [141,142] proposed an image-based FEM. X-ray tomography was used to explore cracks, voids, and fiber bundle distortion and to reconstruct 3D FE meshes incorporating these defects.…”
Section: Vibration Characteristics Of Curved Mtsmentioning
confidence: 99%
“…A wide variety of models have been proposed to model imperfections in composites. Sharma et al [141,142] proposed an image-based FEM. X-ray tomography was used to explore cracks, voids, and fiber bundle distortion and to reconstruct 3D FE meshes incorporating these defects.…”
Section: Vibration Characteristics Of Curved Mtsmentioning
confidence: 99%
“…The macro-scale model was built in the pre-processor of commercial FEA software ABAQUS/CAE as a homogeneous body (Dayyani et al, 2013;Sharma et al, 2014;Uchida and Tada, 2013) which presents the sample used in the test and the mesh scheme is shown in Fig. 16.…”
Section: Macro-scale Modelmentioning
confidence: 99%
“…In addition, the mechanical properties of the C/C composite materials were evaluated in each direction and compared with the 4-D C/C ring structure test results. Sharma [18] conducted a study to predict the effective stiffness of 4-D in-plane C/C composite materials through finite element analysis. In this case, a finite element model of a 4-D in-plane unit cell was created, and the effects of matrix cracking and fiber bundle/matrix interfacial cracking were examined using cohesive interaction.…”
Section: Introductionmentioning
confidence: 99%