The fundamentals of metal-matrix composites / Sezgin Ersoy, editor.

Format:

Book

Contributor:

Ersoy, Sezgin, editor.

Series:

Materials science and technologies series.

Materials science and technologies series

Language:

English

Subjects (All):

Metallic composites.

Raw materials.

Physical Description:

1 online resource (212 pages)

Place of Publication:

New York : Nova Science Publishers, Inc., [2022]

Summary:

"Developing production technology tries to respond to human needs. Meeting these needs requires the development of new products or an increase in the supply of raw materials. Although polymer-based, recycled, and natural resources are used as raw materials, it does not reduce the importance of metal-based structures. However, there is a need to use these metal-based materials at lower costs or to improve their existing properties. This book offers relational studies to these issues"-- Provided by publisher.

Contents:

Intro

Contents

Preface

Acknowledgments

Chapter 1

Fundamentals of Metal-Matrix Composites

Abstract

1. Introduction

2. Processing of MMCs

2.1. Liquid State Processing (LSP) Techniques

2.1.1. Stir Casting

2.1.2. Squeeze Casting

2.1.3. Infiltration Process

2.1.4. Compo-Casting

2.2. Solid-State Processing (SSP) Technique

2.2.1. Hot Pressing (HP)

2.2.2. Friction Stir Processing (FSP)

2.2.3. Powder Metallurgy (PM)

2.2.3.1. Compaction

2.2.3.2. Sintering

2.2.4. Diffusion Bonding

3. Strengthening Mechanisms of MMCs

3.1. Dislocation Strengthening

3.2. Orowan Strengthening

3.3. Grain Refinement Strengthening

4. Application of MMCs

5. Metal-Matrix Nanocomposites (MMnCs)

Conclusion

References

Chapter 2

Fundamentals of Metal-Matrix Diamond Cutting Tools

Introduction

1. Fundamentals of Grinding with MMD Tools

1.1. Kinematics of Grinding

1.2. Kinematics of Grinding: Dynamic Chip Thickness

1.3. Kinematics of Grinding - Number of Active Cutting Grits

1.4. Kinematics of Grinding - Instantaneous Undeformed Chip Thickness

1.5. Kinetics of Grinding

2. Characteristics of Abrasive Grits

2.1. Abrasive Grit Wear

2.2. Abrasive Grit Fracture Toughness

2.3. Natural and Synthetic Diamond

2.4. Bonding Systems for MMD Tools

3. Grinding with Metal-Matrix Diamond Tools

3.1. Wear of Diamond Tools

Chapter 3

Metal-Matrix Composite Materials: Manufacturing and Joining Methods

1. Metal Matrix Composite Systems

1.1. Systems Definitions

1.2. Distinction from Other Materials/Composites

2. Matrix Materials

2.1. Role of Matrix Materials

2.2. Forms of Matrix Materials

2.3. Types of Matrix Materials

2.3.1. Aluminium

2.3.2. Magnesium.

2.3.3. Titanium

2.3.4. Copper

2.3.5. Nickel

2.3.6. Iron

3. Reinforcement Materials

3.1. Role of Reinforcement Materials

3.2. Role of Reinforcement

3.3. Reinforcement Coatings

4. Manufacturing Processes

4.1. General Information

4.2. Powder Blending and Consolidation

4.3. Consolidation Diffusion Bonding

4.3. Vapor Deposition

4.4. Squeeze Casting İnfiltration

4.5. Spray Deposition

4.6. Slurry Casting (Compocasting)

4.7. Reactive Processing (in-Situ Composites)

5. Secondary Manufacturing Processes

5.1. Joining

5.2. Tungsten Inert Gas Welding (TIG)

5.3. Metal Inert Gas Welding (MIG)

5.4. Electron Beam Welding (EBW)

5.5. Laser Beam Welding (LBW)

5.6. Resistance Welding (RW &amp

ERSW)

5.7. Plasma Welding (PW)

5.8. Ultrasonic Welding (UW)

5.9. Diffusion Welding (DW)

5.10. Friction Welding (FW)

5.11. Friction Stir Welding (FSW)

5.12. Friction Stir Spot Welding (FSSW)

5.13. Soldering

5.14. Brazing

Chapter 4

Novel Applications of AI Metal-Matrix Composite for Automotive Engine

Components - A Review

2. Aluminium as Matrix Material

3. Reinforcements in AlMMCs

4. Applications of AlMMCs in Automotive Industry

4.1. Cylinder Block

4.2. Cylinder Liners

4.3. Piston and Connecting Rods

4.4. Valves and Valve Tappet

4.5. Cam Shaft

5. Recent Developments in Usage of ALMMCS in Automotive Engine Components

Chapter 5

Additive Manufacturing with Metal-Matrix Composites in Product Design

2. Technological Advances in Product Design

3. Additive Manufacturing with Metal Matrix Composites

Chapter 6

Additive Manufacturing Technologies: Applications in the Aerospace Industry

Abstract.

Introduction

Additive Manufacturing (AM)

Advantages of 3D Printers

Metal Additive Manufacturing Methods Used in Aerospace Industry

Selective Laser Melting (SLM)

Electron Beam Melting (EBM)

Metal Materials Used in Aviation

Additive Manufacturing Applications in the Aerospace Industry

Chapter 7

Metal Screw Design for Additive Manufacturing Techniques

1. Additive Manufacturing Technique

2. Additive Manufacturing Problems

3. Metal Screw Design

About the Editor

Index

Blank Page.

Notes:

Description based on print version record.

Includes bibliographical references and index.

Other Format:

Print version: Ersoy, Sezgin The Fundamentals of Metal-Matrix Composites

ISBN:

9798886970913