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Stress analysis of fiber-reinforced composite materials
Michael W. Hyer,Scott R. White +1 more
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In this paper, the authors present failure theories for fiber-reinforced laminated composite materials, including the plane-stress assumption and the Kirchoff Hypothesis.Abstract:
1 Fiber-Reinforced Composite Materials2 Linear Elastic Stress-Strain Characteristics of Fiber-Reinforced Material3 Prediction of Engineering Properties Using Micromechanics4 The Plane-Stress Assumption5 Plane-Stress, Stress-Strain Relations in a Global Coordinate System6 Classical Lamination Theory: The Kirchoff Hypothesis7 Classical Lamination Theory: Lamination Stiffness Matrix8 Classical Lamination Theory: Additonal Examples9 Failure Theories for Fiber-Reinforced Materials Maximum Stress Criterion10 Failure Theories for Fiber-Reinforced Materials The TSAI-Wu Criterion11 Environmentally-Induced Stresses in Laminates12 Through-Thickness Laminate Strains13 Introduction to Fiber-Reinforced Laminated Planes14 Appendix Manufacturing Composite Laminatesread more
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Mechanics of Composite Materials with MATLAB
TL;DR: Linear Elastic Stress-Strain Relations Elastic Constants Based on Micromechanics, Plane Stress, Global Coordinate System, Elastic Constant Based on Global Coordinated System, Laminate Analysis - Part I- Laminate analysis - Part II- Effective Elastic Constant of a Laminate- Failure Theories of a Laminating System, Homogenization of Composite Materials, to Damage Mechanics of composite Materials as discussed by the authors.
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Exact Solution for Thermoelastic Deformations of Functionally Graded Thick Rectangular Plates
Senthil S. Vel,Romesh C. Batra +1 more
TL;DR: In this paper, an exact solution is obtained for three-dimensional deformations of a simply supported functionally graded rectangular plate subjected to mechanical and thermal loads on its top and/or bottom surfaces.
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Evaluations of the effective material properties of carbon nanotube-based composites using a nanoscale representative volume element
Yijun Liu,Xiaolin Chen +1 more
TL;DR: In this article, the effective mechanical properties of CNT-based composites are evaluated using a 3-D nanoscale representative volume element (RVE) based on continuum mechanics and using the finite element method (FEM).
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How local stresses control magma-chamber ruptures, dyke injections, and eruptions in composite volcanoes
TL;DR: In this paper, a review of analytical and numerical models of local stresses around magma chambers, as well as analytical models and numerical examples of dyke-injection and eruption frequencies are presented.
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Square representative volume elements for evaluating the effective material properties of carbon nanotube-based composites
Xiaolin Chen,Yijun Liu +1 more
TL;DR: In this article, the effective mechanical properties of CNT-based composites are evaluated using a square representative volume element (RVE) based on the continuum mechanics and with the finite element method (FEM).