Ceramic and polymer matrix composites : properties, performance, and applications /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Dimitriou, Eros, Petralia, Marco
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, c2010.
Colección:Polymer science and technology series (Nova Science Publishers)
Temas:
Ceramic-matrix composites.
Polymeric composites.
Composites à matrice céramique.
Composites polymères.
TECHNOLOGY & ENGINEERING > Material Science.
Ceramic-matrix composites
Polymeric composites
Acceso en línea:Texto completo
Tabla de Contenidos:
  • CERAMIC AND POLYMER MATRIX COMPOSITES: PROPERTIES, PERFORMANCE AND APPLICATIONS
  • CERAMIC AND POLYMER MATRIX COMPOSITES: PROPERTIES, PERFORMANCE AND APPLICATIONS
  • CONTENTS
  • PREFACE
  • SURFACE MODIFICATION OF ULTRA HIGHMODULUS POLYMERIC FIBERS: EFFECTS ONINTERFACIAL ADHESION AND MECHANICALPROPERTIES OF EPOXY RESIN COMPOSITES
  • Abstract
  • Introduction
  • 1. Aramid Fibers
  • 1.1. General Aspects
  • 1.2. Chemical Treatments
  • 1.3. Plasma Treatment
  • 2. Ultra High-Modulus Polyethylene Fibers
  • 2.1. General Description
  • 2.2. Surface Treatments
  • 2.2.1. Chemical Reagents2.2.2. Corona and Plasma Treatments
  • 2.2.3. Morphological Modification of UHMPE Fibers
  • 3. Discussion
  • Experimental
  • 1. Materials and Methods
  • 2. Treatment of Aramid Fibers
  • 2.1. Treatment with Methacryloyl Chloride
  • 2.2. Coating with Resole Resin
  • 2.3. Coating with Novolac Resin
  • 2.4. Treatments of UHMPE Fibers
  • 3. Characterization of Treated Fibers
  • 3.1. Scanning Electron Microscopy
  • 3.2. Surface Characteristics
  • 4. Preparation of Composites
  • 5. Mechanical Measurements on Composites
  • Results and DiscussionReferences
  • MANUFACTURING AND FEATURESOF ACOUSTICALLY OPTIMIZED NATURALFIBRE REINFORCED PLASTICS
  • Abstract
  • 1. Introduction
  • 2. Experimental Process
  • 2.1. Specification Analysis
  • 2.2. Development Concept of Construction
  • 2.3. Materials
  • 2.4. Manufacturing Technology
  • 3. Results
  • 3.1. Characterisation of Mechanical Properties
  • 3.2. Verification of Porosity
  • 3.3. Characterisation of Acoustic Properties
  • 3.3.1. Sound Insulation
  • 3.3.2. Sound Absorption
  • 4. Conclusion
  • Acknowledgment
  • References
  • EFFECTS OF MICROSTRUCTURE ON RESIDUALSTRESSES IN DSE AL2O3/YAG CERAMICCOMPOSITE BY EXPERIMENTAL ANDNUMERICAL INVESTIGATIONSAbstract
  • 1. Introduction
  • 2. Experimental Procedure
  • 2.1. Materials
  • 2.2. X-Ray Diffraction Technique
  • 2.3. Creation of FEM Model and Simulation
  • 2.3.1. Drawing of Phase Profiles Based on Real Image
  • 2.3.2. Generation of Mesh and Assignment of Material Properties
  • 2.3.3. Finite Element Calculation
  • 3. Result
  • 3.1. Residual Stress Measured by X-Ray Diffraction
  • 3.2. Residual Stress Calculated by FEM Simulation
  • 4. DiscussionConclusion
  • Acknowledgments
  • References
  • INTRODUCTION OF PARTICLE DISPERSIONREINFORCED CERAMIC MATRIX COMPOSITES
  • Abstract
  • 1. Introduction
  • 2. Fabrication Processes of Particle Reinforced Ceramic
  • 2.1. Theory of Sintering Densification
  • 2.2. Processing Technology
  • 2.3. Equipment
  • 3. Toughening Mechanisms
  • 3.1. Toughening Mechanisms of Thermal Expansion Mismatch
  • 3.2. Toughening Mechanisms of Micro-Crack Zone
  • 3.3. Toughening Mechanisms of Residual Stress Field
  • 3.4. Toughening Mechanisms of Crack Bridging

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