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Abstract

In the present study, an analytical elasto-plastic stress analysis is carried out on symmetric cross-ply [0°/90°]₂ and symmetric angle-ply [30°/-30°]₂, [45°/-45°]₂, [60°/-60°]₂, thermoplastic laminated plates. Composite laminated plates are simply supported and subjected to constant temperature change through the thickness. The analytical solution is performed for satisfying thermoelastic-plastic stress-strain relations and boundary conditions for small plastic deformations. The composite materials are assumed to be linearly hardening. The Tsai-Hill theory is used as a yield criterion. Residual stress components (σ _x ) _r and (σ _y ) _r for cross-ply laminated plates have some magnitudes but (τ _xy ) _r are zero. The intensity of residual stress components increase gradually depending on the temperature increment. For symmetric angle-ply laminated plates, all residual stresses are found zero.

Keywords

thermoplastic laminate elasto-plastic analysis of composites

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Thermal Elastic-Plastic Stress Analysis in Simply Supported Thermoplastic Laminated Plates

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