Composite Materials Handbook – Vol 4 – Metal Matrix Composite » Free Download Engineering | Science

by admin @ 12:04 am on June 8, 2010. Filed under Mechanical Science, Mechanical engineering

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TOC

1. GUIDELINES
1.1 GENERAL INFORMATION
1.2 INTRODUCTION TO MMC MATERIALS
1.2.1 INTRODUCTION
1.2.2 MMC SYSTEMS
1.2.2.1 Systems definitions
1.2.2.2 Distinction from other materials/composites
1.2.3 MATRIX MATERIALS
1.2.4 REINFORCEMENT MATERIALS
1.2.5 REINFORCEMENT COATINGS
1.2.6 MANUFACTURING PROCESSES
1.2.6.1 Overview and General Information
1.2.6.2 Assembly and consolidation
1.2.6.2.1 Powder blending and consolidation
1.2.6.2.2 Consolidation diffusion bonding
1.2.6.2.3 Vapor deposition
1.2.6.2.4 Squeeze casting and squeeze infiltration
1.2.6.2.5 Spray deposition
1.2.6.2.6 Slurry casting (compocasting)
1.2.6.2.7 Reactive processing (in-situ composites)
1.2.6.3 Thermomechanical processing
1.2.6.4 Near net shape manufacturing processes
1.2.7 PRODUCT FORMS
1.2.8 SECONDARY MANUFACTURING PROCESSES
1.2.9 QUALITY ASSURANCE
1.2.10 REPAIR
1.3 TEST PLANS FOR MATERIALS CHARACTERIZATION
1.3.1 INTRODUCTION
1.3.2 REQUIREMENTS
1.3.3 MATERIALS PEDIGREE
1.3.4 CONTINUOUS FIBER REINFORCED MMC CONSTITUENT MATERIAL PROPERTIES
1.3.5 DISCONTINUOUS REINFORCED MMC & CONSTITUENT MATERIAL PROPERTIES
1.4 COMPOSITE TESTING AND ANALYTICAL METHODS
1.4.1 INTRODUCTION
1.4.2 CONTINUOUS FIBER REINFORCED MMC MECHANICAL PROPERTY TEST METHODS
1.4.2.1 Tension
1.4.2.2 Compression
1.4.2.3 Shear (in-plane)
1.4.2.4 Fatigue
1.4.2.5 Fatigue crack growth rate
1.4.2.6 Creep/stress rupture
1.4.2.7 Pin bearing tension
1.4.2.8 Pin bearing compression
1.4.2.9 Filled hole tension
1.4.2.10 Open hole tension/notch sensitivity
1.4.2.11 Flexure (three-point bend)
1.4.2.12 Filled hole compression
1.4.2.13 Fiber pushout tests
1.4.2.14 Microhardness
1.4.2.15 Thermomechanical fatigue (TMF) (in-phase/out-of-phase)
1.4.2.16 Residual strength and stiffness
1.4.2.17 Bearing fatigue
1.4.2.18 Open hole fatigue
1.4.2.19 Filled hole fatigue
1.4.2.20 Corrosion fatigue
1.4.2.21 Stress corrosion cracking
1.4.2.22 Wear
1.4.2.23 Impact
1.4.2.24 Damping
1.4.3 DISCONTINUOUS REINFORCED MMC MECHANICAL PROPERTY TEST METHODS
1.4.3.1 Tension
1.4.3.2 Compression
1.4.3.3 Shear (in-plane)
1.4.3.4 Fracture toughness
1.4.3.5 Fatigue
1.4.3.6 Fatigue crack growth
1.4.3.7 Creep/stress rupture
1.4.3.8 Corrosion fatigue
1.4.3.9 Stress corrosion cracking
1.4.3.10 Wear
1.4.3.11 Impact
1.4.3.12 Damping
1.4.4 PHYSICAL PROPERTY TEST METHODS
1.4.5 MICROSTRUCTURAL ANALYSIS TECHNIQUES
1.4.5.1 Titanium matrix composites
1.4.6 CHEMICAL ANALYSIS TECHNIQUES
1.4.6.1 Analysis of carbon and sulfur
1.4.6.2 Analysis for oxygen and nitrogen by inert gas fusion
1.4.7 NON-DESTRUCTIVE EVALUATION TEST METHODS
1.4.8 ENVIRONMENTAL EFFECTS TEST METHODS
1.4.9 INTERPHASES AND INTERFACES TEST METHODS
1.5 INTERMEDIATE FORMS TESTING AND ANALYTICAL METHODS 5
1.5.1 INTRODUCTION
1.5.2 MECHANICAL PROPERTY TEST METHODS
1.5.3 PHYSICAL PROPERTY TEST METHODS
1.5.4 MICROSTRUCTURAL ANALYSIS TECHNIQUES
1.5.5 CHEMICAL ANALYSIS TECHNIQUES
1.5.6 NON-DESTRUCTIVE EVALUATION TEST METHODS
1.6 FIBER TESTING AND ANALYTICAL METHODS
1.6.1 INTRODUCTION
1.6.2 MECHANICAL PROPERTY TEST METHODS
1.6.3 PHYSICAL PROPERTY TEST METHODS
1.6.4 MICROSTRUCTURAL ANALYSIS TECHNIQUES
1.6.5 CHEMICAL ANALYSIS TECHNIQUES
1.6.6 ENVIRONMENTAL EFFECTS TEST METHODS
1.7 FIBER SIZING TESTING AND ANALYTICAL METHODS
1.7.1 INTRODUCTION
1.7.2 PHYSICAL PROPERTY TEST METHODS
1.7.3 CHEMICAL ANALYSIS TECHNIQUES
1.8 FIBER COATINGS, INTERFACES AND INTERPHASES TESTING AND ANALYTICAL METHODS
1.8.1 INTRODUCTION
1.8.2 MECHANICAL PROPERTY TEST METHODS
1.8.3 PHYSICAL PROPERTY TEST METHODS
1.8.4 MICROSTRUCTURAL ANALYSIS TECHNIQUES
1.8.5 CHEMICAL ANALYSIS TECHNIQUES
1.9 MATRIX TESTING AND ANALYTICAL METHODS
1.9.1 INTRODUCTION
1.9.2 MECHANICAL TEST METHODS
1.9.3 PHYSICAL TEST METHOD
1.9.4 MICROSTRUCTURAL ANALYSIS TECHNIQUES
1.9.5 CHEMICAL ANALYSIS TECHNIQUES
1.9.6 ENVIRONMENTAL EFFECTS TEST METHODS
1.10 STRUCTURE SENSITIVE PROPERTIES CHARACTERIZATION
1.11 ANALYSIS OF DATA

2. DESIGN GUIDELINES FOR METAL MATRIX MATERIALS
2.1 GENERAL INFORMATION
2.1.1 INTRODUCTION
2.1.2 PURPOSE, SCOPE, AND ORGANIZATION OF SECTION 2
2.2 USE OF DATA
2.3 STRUCTURAL DESIGN AND ANALYSIS
2.3.1 Introduction
2.3.2 GENERAL DESIGN GUIDELINES
2.3.3 ANALYSIS APPROACHES (CONTINUOUS FIBER MMC)
2.3.3.1 Micromechanics
2.3.3.2 Viscoplastic constitutive relations
2.3.3.3 Macromechanics
2.3.3.4 Damage tolerance
2.3.3.5 Durability
2.3.3.6 Life prediction
2.3.4 DESIGN GUIDELINES (DISCONTINUOUS FIBER REINFORCED MMC)
2.3.4.1 Micromechanics
2.3.4.2 Viscoplastic constitutive relations
2.3.4.2.1 Tensile response
2.3.4.2.2 Compressive response
2.3.4.2.3 Shear response
2.3.4.3 Crack growth behavior
2.3.4.4 Durability
2.3.4.5 Life prediction
2.4 APPLICATIONS AND CASE STUDIES
2.4.1 COMPONENTS FOR STRUCTURAL APPLICATIONS
2.4.2 COMPONENTS FOR TRIBOLOGICAL APPLICATIONS
2.4.3 COMPONENTS FOR THERMAL MANAGEMENT APPLICATIONS
2.4.4 COMPONENTS FOR THERMAL EXPANSION CONTROL
2.4.5 OTHER MISCELLANEOUS APPLICATIONS

3. MATERIALS PROPERTIES DATA
3.1 GENERAL INFORMATION
3.2 REINFORCEMENT PROPERTIES
3.2.1 INTRODUCTION
3.2.2 ALUMINA FIBERS
3.2.2.1 Introduction
3.2.2.2 Virgin Nextel TM 610 fiber
3.2.3 BORON FIBERS
3.2.4 BORON CARBIDE FIBERS
3.2.5 CARBON AND GRAPHITE FIBERS
3.2.6 SILICON CARBIDE FIBERS
3.2.6.1 Virgin SCS-6 Fiber*
3.2.7 STEEL FIBERS
3.2.8 TUNGSTEN FIBERS
3.2.9 OTHER FIBERS
3.2.10 OTHER REINFORCEMENTS
3.3 PROPERTIES OF MATRIX MATERIALS
3.3.1 INTRODUCTION
3.3.2 ALUMINUMS
3.3.3 COPPERS
3.3.4 MAGNESIUMS
3.3.5 TITANIUMS
3.3.5.1 Ti-15V-3Cr-3Al-3Sn (NASA-GRC)
3.3.6 OTHERS
3.4 FIBER COATING PROPERTIES
3.4.1 INTRODUCTION
3.4.2 CARBON
3.4.3 TITANIUM DIBORIDE
3.4.4 YTTRIA
3.4.5 OTHERS
3.5 ALUMINUM MATRIX COMPOSITE PROPERTIES
3.5.1 INTRODUCTION
3.5.2 ALUMINA/ALUMINUM
3.5.2.1 Nextel 610/pure Al panel
3.5.3 BORON/ALUMINUM
3.5.4 BORON CARBIDE/ALUMINUM
3.5.5 GRAPHITE/ALUMINUM
3.5.6 SILICON CARBIDE/ALUMINUM
3.5.7 STEEL/ALUMINUM
3.5.8 TUNGSTEN/ALUMINUM
3.5.9 OTHERS/ALUMINUM
3.6 COPPER MATRIX COMPOSITE PROPERTIES
3.6.1 INTRODUCTION
3.6.2 GRAPHITE/COPPER
3.6.3 OTHERS/COPPER
3.7 MAGNESIUM MATRIX COMPOSITE PROPERTIES
3.7.1 INTRODUCTION
3.7.2 GRAPHITE/MAGNESIUM
3.7.3 ALUMINA/MAGNESIUM
3.7.4 OTHER/MAGNESIUM
3.8 TITANIUM MATRIX COMPOSITE PROPERTIES
3.8.1 INTRODUCTION
3.8.2 SILICON CARBIDE/TITANIUM
3.8.2.1 SiC/Ti-15-3
3.8.2.1.1 SiC/Ti-15-3 Tension
3.8.2.1.2 SiC/Ti-15-3 Fatigue
3.8.2.2 TRIMARC-1/Ti-6Al-2Sn-4Zr-2Mo wire/fiber wound plate*
3.8.2.2.1 TRIMARC-1/Ti-6Al-2Sn-4Zr-2Mo tension
3.8.2.2.2 TRIMARC-1/Ti-6Al-2Sn-4Zr-2Mo compression
3.8.3 ALUMINA/TITANIUM
3.8.4 OTHER/TITANIUM
3.9 OTHER MATRIX COMPOSITES

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One Response to “Composite Materials Handbook – Vol 4 – Metal Matrix Composite”

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July 1, 2010 at 9:26 am

Located in New Jersey USA, we are product development/machine design specialists: http://www.argusengineering.net

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Composite Materials Handbook – Vol 4 – Metal Matrix Composite

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