Encyclopedia of materials : composites / editor-in-chief, Dermot Brabazon.

Format:

Book

Database & Article Index

Contributor:

Brabazon, Dermot, editor.

Language:

English

Subjects (All):

Composite materials.

Physical Description:

1 online resource

Place of Publication:

Amsterdam, Netherlands : Elsevier, [2021]

Summary:

"Encyclopedia of Materials: Composites, Three Volume Set provides a point-of-entry, foundational-level resource for all scientists and practitioners interested in this exciting field. All composite materials technologies, processes and applications are covered, with contributions written and expertly curated by the world’s leading scientists. The result is a three-volume, comprehensive collection of the most important data, concepts and studies published in the field. This title is clearly structured in thematic sections, making it an invaluable tool for researchers in the fields of materials science, energy, engineering, chemistry and physics, and from both industry and academia."-- Provided by publisher.

Contents:

e9780128197240v1_WEB

Cover

ENCYCLOPEDIA OF MATERIALS: COMPOSITES

CONTENTS OF VOLUME 1

LIST OF CONTRIBUTORS FOR VOLUME 1

Editorial Board

Preface

Introduction to Metal Matrix Composite Materials: An Introduction

Introducing Composites

Metal Matrix Composites - Matrix and Reinforcements

Metal Matrix Composites - Processing

Metal Matrix Composites - Properties

Metal Matrix Composites - Joining

Metal Matrix Composites - Machining

Metal Matrix Composites - Surface Protection

Metal Matrix Composites - Applications

Challenges With MMC Technology

References

Fundamentals of Metal Matrix Composites

Introduction

Classification of Metal Matrix Composites

Fiber Reinforced MMCs

Particulate Composites

Nanocomposites

Carbon nanotubes reinforced MMCs

Laminate Composites

Processing of Metal Matrix Composites

Liquid State Processing

Melt infiltration

Pressure die infiltration:

Gas pressure infiltration:

Ultrasonic infiltration:

Centrifugal infiltration:

Lorentz force infiltration:

Squeeze casting:

Stir casting

Melt deposition

Immersion plating:

Electroplating or electrodeposition:

Chemical vapor deposition:

Physical vapor deposition:

Spray deposition:

Disintegrated melt deposition:

Solid State Processing

Powder consolidation

Mechanical alloying

Post-processing (or) sintering of powder compact

Microwave assisted rapid sintering

Diffusion bonding

Deformation processing

In-Situ Processes

Additive Manufacturing

Properties of MMCs

Volume and Weight Fractions

Density

Coefficient of Thermal Expansion

Modulus of Elasticity

Tensile Strength

Load transfer

Strengthening due to CTE and EM mismatch

Thermal residual stresses

Orowan strengthening

Grain refinement strengthening.

Application of MMCs

Challenges and Recommendations

An Insight Into Metal Matrix Composites With Micron Size Reinforcement

Processing Methods

Strengthening Mechanisms

Types of Reinforcement

Silicon Carbide (SiC)

Alumina and Aluminosilicate

Alumino Silicate and Silica

Carbon

Fly Ash

Boron Carbide

In situ Composites

Applications

Conclusion

Acknowledgment

An Insight Into Metal Matrix Composites With Nano Size Reinforcement

An Overview

Orowan

Hall-Petch

Mismatch in the Coefficient of Thermal Expansion (CTE)

Mismatch in the Young's Modulus

Load-Bearing

Modeling

Manufacturing and Processing Techniques

Stir Casting

Disintegrated Melt Deposition (DMD)

Semi-Solid Casting (SSC)

Powder Metallurgy (PM)

Friction Stir Processing (FSP)

Accumulative Roll Bonding (ARB)

Summary and Conclusion

An Insight Into Magnesium Based Metal Matrix Composites With Hybrid Reinforcement

Melt Infiltration and Squeeze Casting of Magnesium Composites Containing Hybrid Reinforcements

Stir Casting and Friction Stir Processing of Magnesium Composites Containing Hybrid Reinforcements

Development of Magnesium Based Composites Using Disintegrated Melt Deposition Followed by Hot Extrusion

Powder Metallurgy Processing of Magnesium Based Composites Containing Hybrid Reinforcements

Development of Mg Hybrid Composites Containing In-Situ Formed Reinforcements

Concluding Remarks

Metal Based Composites With Metastable/Amorphous Reinforcements

Synthesis of Metallic Amorphous Particles

Fabrication of MMCs With Amorphous Particles

Conventional and Advanced Processing Methods

Squeeze casting infiltration (SCI)

Compocasting (CS).

Blend-compact-sinter method (BCS)

Powder metallurgy accompanied with microwave sintering (MWS)

Powder metallurgy accompanied with spark plasma sintering (SPS)

Powder metallurgy accompanied with high frequency induction heat sintering (HFIHS)

Accumulative roll bonding (ARB)

Friction stir processing (FSP)

Microstructure and Mechanical Properties of Al-based MMCs

Microstructure and Mechanical Properties of Mg-Based MMCs

Current and Future Applications

Summary

Development and Properties of Amorphous Particles Reinforced Al Matrix Nanocomposites

Production of Metallic Amorphous Particles/Bulk Metallic Glasses: Mechanical Alloying

Synthesis of Amorphous Particles Reinforced Al Composites

Properties of Amorphous Particles Reinforced Aluminum Metal Composites

Conclusions

Metal Matrix Syntactic Composites

Hollow Particles

Fly Ash Cenospheres

Engineered Hollow Particles

Processing Techniques

Pressure Infiltration

Powder Metallurgy

Secondary Processing Techniques

Microstructure of MMSFs

Mechanical Properties

Compressive Properties

Dynamic Compressive Properties

Energy Absorption

Weight Saving Potential of MMSFs

Insight Into Layered Metal Matrix Composites

Metal - Metal Matrix Composite Laminates

Processing of LMMCs

Bonding

Adhesive bonding

Roll bonding

Hot roll bonding

Reactive hot pressing (RHP)

Laser Surface Alloying Process

Co - Extrusion

Spray Atomization and Deposition

Mechanical Behavior of LMMCs

Mechanical Strength of LMMCs

Loading in longitudinal direction

Loading in transverse direction.

Elastic modulus of LMMCs

Density of LMMCs

Fracture Mechanics of LMMCs

Fracture of samples with notch/loading in crack divider orientation

Fracture of samples with notch loading in crack arrester orientation

Delamination

Design Considerations of LMMCs

Stacking sequence

Stacking Layer Thickness

Stacking Layer Materials

Eco-friendly Metal Matrix Composites

Processing Technologies for Eco-friendly Metal Matrix Composites

Solid-State Processing

Properties for Eco-friendly Metal Matrix Composites

Zinc Matrix Composites

Microstructure

Mechanical properties

Corrosion properties

Titanium Matrix Composites

Tribological properties

Biocompatibility

Magnesium Matrix Composites

Recent developments in magnesium matrix composites

Liquid Phase Processing of Metal Matrix Composites

Constituents and Classification of MMCs

Processing Methods of MMC

Liquid State Fabrication of Metal Matrix Composites

Stir Casting Process

Compocasting Process

Spray Deposition

Disintegrated Melt Deposition Technique (DMD Technique)

In-Situ Processing

Ultrasonic Processing

Liquid Metal Infiltration

Spontaneous/pressure-less infiltration

Forced Infiltration

Gas pressure infiltration

Pressure die infiltration

Centrifugal infiltration

Lorentz force infiltration

Ultrasonic infiltration

Vacuum infiltration

Squeeze infiltration

Conclusion and Future Scope

Solid Phase Processing of Metal Matrix Composites

Conventional Methods

Dispersion of reinforcements

Compaction

Sintering techniques

Spark plasma sintering

Microwave sintering.

Novel Methods

Semi-powder metallurgy

Flake powder metallurgy

Molecular level mixing

In-situ synthesis

Thermo-Mechanical Processing (TMP)

Conventional Plastic Deformation

Extrusion

Rolling

Forging

Severe Plastic Deformation

Equal channel angular pressing

High-pressure torsion

Accumulative roll bonding

Friction stir processing

Cyclic extrusion and compression

Multi-directional forging

Summary and Outlook

Two Phase Processing of Metal Matrix Composites

Manufacturing of Metal Matrix Composites

Spray Atomization and Deposition Processing

Rheocasting Process

The Osprey Deposition Process

Properties of Metal Matrix Composites [MMCs] Produced Using Various Two-Phase Processes

Futher Reading

Additive Manufacturing of Metal Matrix Composites

Solid-Based Systems

Powder Based Systems

Additive Manufacturing of Aluminum Matrix Composites

Additive Manufacturing of Titanium Matrix Composites (TMCs)

Additive Manufacturing of Nickel Based Metal Matrix Composites

Additive Manufacturing of Ferrous Based Metal Matrix Composites

Additive Manufacturing of Copper Based Metal Matrix Composites

Summary and Recommendations

Severe Plastic Deformation Processing of Metal Matrix Composites

Types of Severe Plastic Deformation Methods

Equal Channel Angular Pressing (ECAP)

High Pressure Torsion (HPT)

Multiaxial Forging (MAF)

Accumulated Roll Bonding (ARB)

Repetitive Corrugated Straightening

Continuous SPD Techniques

Microstructural Evolution During Severe Plastic Deformation

Mechanical Properties of SPD Processed Metal Matrix Composites

Concluding Remarks and Recommendations

Friction Stir Processing of Metal Matrix Composites.

Introduction to Friction Stir Processing (FSP).

Notes:

Title from online title page (viewed on June 25, 2025).

Includes bibliographical references and index.

ISBN:

9780128197318

0128197315

OCLC:

1259368735

Access Restriction:

Restricted for use by site license.