Sk. N. M. Azad scite author profile

A three-dimensional woven composite strength model is presented for predicting the failure behavior of three-dimensional angle interlock woven composites under on-axis uniaxial static tensile loading and shear loading. The model is based on two-level discretization of the repeating unit cell. The repeating unit cell is discretized into sections, elements, subsections and subelements. The model predicts the stress levels at which the secondary failures take place at subelement level. The effect of secondary failure is considered for further analysis and the ultimate tensile strength and shear strength and the corresponding strains are predicted. A parametric study has been carried out for different 3D angle interlock woven composite configurations.

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Stress and Failure Analysis of 3D Orthogonal Interlock Woven Composites

Naik

Azad

AND

et al. 2001

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Stress and Failure Analysis of 3D Orthogonal Interlock Woven Composites

Naik

Azad

Prasad

et al. 2001

Journal of Reinforced Plastics and Composites

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A three-dimensional woven composite strength model is presented for predicting the failure behavior of three-dimensional orthogonal interlock woven composites under on-axis uniaxial static tensile loading and shear loading. The model is based on two-level discretization of the repeating unit cell. The repeating unit cell is discretized into sections, elements, subsections and subelements. The model predicts the stress levels at which the secondary failures take place at subelement level. The effect of secondary failure is considered for further analysis and the ultimate tensile strength and shear strength and the corresponding strains are predicted. A parametric study has been carried out for different 3D orthogonal interlock woven composite configurations. In general, it is seen that there is no significant reduction in the inplane elastic and strength properties for 3D orthogonal woven composites, compared to the corresponding cross-ply laminates made of unidirectional layers, but there is a significant increase in the through-the-thickness properties.

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Naik

Reddy

Meduri

et al. 2002

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Sk. N. M. Azad

Stress and Failure Analysis of 3D Angle Interlock Woven Composites

Stress and Failure Analysis of 3D Orthogonal Interlock Woven Composites

Stress and Failure Analysis of 3D Orthogonal Interlock Woven Composites

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