Name: Newnes Engineering Materials Pocket Book By William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)
SKU: 9780434901135
Price: 19.49 AUD
Availability: InStock

Newnes Engineering Materials Pocket Book Summary

Newnes Engineering Materials Pocket Book by William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Newnes Engineering Materials Pocket Book is a guidebook that provides a concise discussion on the various materials used in engineering. The coverage of the book includes ferrous and non-ferrous metals, polymeric materials, and ceramics and composites. The text first presents the terminology, and then proceeds to covering the test methods. The next nine chapters discuss the properties of various engineering materials, including copper, magnesium, nickel, and titanium. Next, the book presents the comparative properties table and materials index. The book will be of great use to both students and practitioners of engineering, especially materials engineering.

About William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Former Lecturer at Buckingham Chilterns University College, High Wycombe, UK, and now retired, William Bolton has worked in industry and academia as a senior lecturer in a college of technology, a member of the Nuffield Advanced Physics team, an adviser to a British government aid project in Brazil on technical education, as a UNESCO consultant in Argentina and Thailand, and as Head of Research and Development at the Business and Technician Education Council. He has written many engineering textbooks, including Mechatronics, 4th ed., Engineering Science, 5th ed., Higher Engineering Science, 2nd ed., Mechanical Science, 3rd ed., and Instrumentation and Control Systems.

PrefaceAcknowledgments1 Terminology2 Test Methods Bend Tests Creep Tests Fatigue Tests Hardenability Hardness Measurement Impact Tests Tensile Test3 Ferrous Alloys 3.1 Materials Alloys Alloy Steels Carbon Steels Cast Irons Free-Cutting Steels Maraging Steels Stainless Steels Tool Steels 3.2 Codes and Compositions Coding System for Carbon Steels Coding System for Cast Irons Coding System for Stainless Steels Coding System for Steels: American Coding System for Steels: British Coding System for Tool Steels Composition of Alloy Steels Composition of Carbon Steels Composition of Cast Irons Composition of Free-Cutting Steels Composition of Maraging Steels Composition of Stainless Steels Composition of Tool Steels 3.3 Heat Treatment Annealing Case Hardening Nitriding Surface Hardening Tempering 3.4 Properties Creep Properties Density Electrical Resistivity Fatigue Hardness Impact Properties Machinability Mechanical Properties of Alloy Steels Mechanical Properties of Carbon Steels Mechanical Properties of Cast Irons Mechanical Properties of Free-Cutting Steels Mechanical Properties of Maraging Steels Mechanical Properties of Stainless Steels Oxidation Resistance Ruling Section Specific Gravity Thermal Properties Tool Steel Properties 3.5 Uses Uses of Alloy Steels Uses of Carbon Steels Uses of Cast Irons Uses of Stainless Steels Uses of Tool Steels4 Aluminum Alloys 4.1 Materials Aluminum Aluminum Alloys Cast Alloys Wrought Alloys 4.2 Codes and Compositions Coding System for Composition of Cast Alloys Coding System for Composition of Wrought Alloys Coding System for Temper Composition of Cast Alloys Composition of Wrought Alloys 4.3 Heat Treatment Annealing Heat Treatment for Cast Alloys Heat Treatment for Wrought Alloys 4.4 Properties Density Electrical Properties Fabrication Properties Fatigue Properties Machinability Mechanical Properties of Cast Alloys Specific Gravity Thermal Properties Weldability 4.5 Uses Forms of Material Uses of Cast Alloys Uses of Wrought Alloys5 Copper 5.1 Materials Copper Copper Alloys Brasses Bronzes Aluminum Bronzes Silicon Bronzes Beryllium Bronzes Cupro-Nickels 5.2 Codes and Compositions Codes for Composition Codes for Tempers Composition of Casting Alloys Composition of Wrought Alloys 5.3 Heat Treatment Annealing Precipitation Hardening Quenching and Tempering Stress Relief 5.4 Properties Brazing Creep Properties Density Electrical Conductivity Fatigue Properties Hardness Impact Properties Machinability Mechanical Properties of Cast Alloys Mechanical Properties of Wrought Alloys Solderability Thermal Properties Weldability 5.5 Uses Forms Uses of Cast Alloys Uses of Wrought Alloys 6 Magnesium 6.1 Materials Magnesium Magnesium Alloys 6.2 Codes and Compositions Codes for Composition Coding System for Temper Composition of Cast Alloys Composition of Wrought Alloys 6.3 Heat Treatment Annealing Solution Treatment and Aging Stress Relieving 6.4 Properties Density Electrical Properties Fatigue Properties Mechanical Properties of Cast Alloys Mechanical Properties of Wrought Alloys Thermal Properties Weldability 6.5 Uses Forms Uses of Cast Alloys Uses of Wrought Alloys 7 Nickel 7.1 Materials Nickel Alloys 7.2 Codes and Compositions Codes Composition of Nickel and Alloys 7.3 Heat Treatment Annealing Solution Treatment and Precipitation Stress Relief 7.4 Properties Creep Properties Density Electrical Resistivity Fatigue Properties Mechanical Properties of Cast Alloys Mechanical Properties of Wrought Alloys Oxidation Limit Thermal Properties 7.5 Uses Forms Uses of Nickel Alloys8 Titanium 8.1 Materials Titanium Titanium Alloys 8.2 Codes and Composition Codes for Composition Composition 8.3 Heat Treatment Annealing Solution and Precipitation Treatment Stress Relief 8.4 Properties Creep Properties Density Electrical Resistivity Fatigue Properties Fracture Toughness Hardness Impact Properties Machinability Mechanical Properties Thermal Properties Weldability 8.5 Uses Forms Uses9 Polymeric Materials 9.1 Materials Types of Polymer Elastomers Thermosets Thermoplastics 9.2 Polymer Structures Additives Crystallinity Structure of Polymers Structure and Properties 9.3 Codes and Composition Codes Composition 9.4 Properties Chemical Properties Creep Properties Density Electrical Properties Fracture Toughness Glass Transition Temperatures Hardness Impact Properties Mechanical Properties Optical Properties Permeability Resilience Thermal Properties 9.5 Uses Processing Methods Uses 10 Ceramics 10.1 Materials Ceramics Engineering Ceramics Glasses Refractories 10.2 Codes Codes for Bonded Carbides 10.3 Properties Density Electrical Properties Mechanical Properties of Alumina Ceramics Mechanical Properties of Bonded Carbides Mechanical Properties of Glasses Thermal Properties of Bonded Carbides Thermal Properties of Glasses 10.4 Uses Uses of Alumina Ceramics Uses of Bonded Carbides Uses Of Glasses 11 Composites 11.1 Materials Types of Composites Fiber Reinforced Materials Particle Reinforced Materials Dispersion Strengthened Metals 11.2 Properties Properties of Fiber Reinforced Materials Properties of Woods 12 Comparative Properties Casting Alloys Corrosion Resistance Cost Creep Electrical Conductivity Mechanical Properties Thermal Properties 13 Materials Index Elements Engineering Metals Engineering Polymers Engineering Ceramics Appendix: Units Energy Hardness Specific Heat Capacity Stress Temperature Thermal Conductivity

Additional information

Sku

GOR003481618

ISBN 13

9780434901135

ISBN 10

043490113X

Title

Newnes Engineering Materials Pocket Book by William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Author

William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Condition

Used - Very Good

Binding type

Hardback

Publisher

Elsevier Science & Technology

Year published

19891024

Number of pages

206

Prizes

N/A

Cover note

Book picture is for illustrative purposes only, actual binding, cover or edition may vary.

Note

This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in very good condition, but if you are not entirely satisfied please get in touch with us

Newnes Engineering Materials Pocket Book William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Newnes Engineering Materials Pocket Book by William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Summary

Newnes Engineering Materials Pocket Book Summary

Newnes Engineering Materials Pocket Book by William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

About William Bolton (Formerly Lecturer, Buckingham Chilterns University College, High Wycombe, UK)

Table of Contents

Additional information

Customer Reviews - Newnes Engineering Materials Pocket Book