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Composite materials in engineering structures /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Science Publishers,
©2011.
|
| Colección: | Materials science and technologies series.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- COMPOSITE MATERIALS IN ENGINEERING STRUCTURES ; COMPOSITE MATERIALS IN ENGINEERING STRUCTURES ; CONTENTS ; PREFACE ; EFFECTS OF THERMO-OXIDATION ON COMPOSITE MATERIALS AND STRUCTURES AT HIGH TEMPERATURES ; ABSTRACT ; INTRODUCTION ; LITERATURE REVIEW: RELEVANT ISSUES AND EXPERIMENTAL FACTS ; Effect of Thermo-Oxidation on Damage Onset and Propagation in Composite Laminates ; Effects of Thermo-Oxidation on the Neat Polymer ; Classical Mechanistic Scheme for Thermo-Oxidation in Polymers and PMCS ; Discussion on the Reviewed Experimental Facts.
- CHARACTERIZATION OF MATRIX SHRINKAGE IN PMCS BY CONFOCAL INTERFEROMETRIC MICROSCOPYCHEMO-MECHANICS COUPLED MODEL FOR THERMO-OXIDATION OF POLYMERS AND PMCS; Remarks on the Thermodynamics Framework ; Chemo-Mechanics Couplings in the Elastic Range ; Experimental Assessment of Chemo-Mechanics Couplings in Neat Polymer Resins under Stress ; Viscoelastic Model of a Polymer at High Temperature ; Identification of the Viscoelastic Model for a 977-2 Polymer Matrix Resin at High Temperature ; VALIDATION OF THE MODEL AND SIMULATIONS.
- Validation of the Model through Comparison with Cim Matrix Shrinkage Measurements in PMCs Model Simulations
- Micro Damage Onset ; Mass Loss Simulation in PMCs Laminates ; ACCELERATED THERMO-OXIDATION ; CONCLUSION ; ACKNOWLEDGMENT ; REFERENCES ; DAMPING IN COMPOSITE MATERIALS AND STRUCTURES ; 1. Introduction ; 2. Damping in a Unidirectional Composite as a Function of the Constituents ; 3. Bending Vibrations of Undamped and Damped Laminate Beams; 3.1. Undamped Beam Vibrations ; 3.1.1. Normal Modes in the Case of Undamped Vibrations; 3.1.2. Motion Equation in Normal Co-ordinates.
- 3.2. Damping Modelling Using Viscous Friction 3.2.1. Vibration Equation of Damped Beams ; 3.2.2. Motion Equation in Normal Coordinates ; 3.2.3. Forced Harmonic Vibrations ; 3.3. Damping Modelling Using Complex Stiffness ; 3.4. Beam Response to a Concentrated Loading; 4. Evaluation of the Damping Properties of Orthotropic Beams as Functions of The Material Orientation ; 4.1. Energy Analysis of Beam Damping ; 4.1.1. Introduction; 4.1.2. Adams-bacon Approach ; 4.1.3. Ni-Adams Analysis ; 4.1.4. General Formulation of Damping ; 4.2. Complex Moduli.
- 5. Evaluation of the Damping Properties of Plates as Function of Material Direction 5.1. Orthotropic Plates ; 5.1.1. Formulation ; 5.1.2. Procedure ; 5.2. Laminated Plates ; 5.3. Conclusion ; 6. Damping Analysis of Laminates with Interleaved Viscoelastic Layers ; 6.1. Introduction ; 6.2. Laminate Configurations ; 6.3. Evaluation of the Damping in the Case of Interleaved Viscoelastic Layers ; 7. Damping Evaluation Using Finite Element Analysis ; 7.1. Introduction; 7.2. In-Plane Strain Energy as a Function of In-Plane Stresses ; 7.3. In-Plane Stress Evaluation.