Materials Science for Engineering Students offers students of introductory materials science and engineering, and their instructors, a fresh perspective on the rapidly evolving world of advanced engineering materials. This new, concise text takes a more contemporary approach to materials science than the more traditional books in this subject, with a special emphasis on using an inductive method to first introduce materials and their particular properties and then to explain the underlying physical and chemical phenomena responsible for those properties.
The text pays particular attention to the newer classes of materials, such as ceramics, polymers and composites, and treats them as part of two essential classes – structural materials and functional materials – rather than the traditional method of emphasizing structural materials alone.
This book is recommended for second and third year engineering students taking a required one- or two-semester sequence in introductory materials science and engineering as well as graduate-level students in materials, electrical, chemical and manufacturing engineering who need to take this as a core prerequisite.
Key Features
- Presents balanced coverage of both structural and functional materials
- Types of materials are introduced first, followed by explanation of physical and chemical phenomena that drive their specific properties
- Strong focus on engineering applications of materials
- The first materials science text to include a whole chapter devoted to batteries
- Provides clear, mathematically simple explanations of basic chemistry and physics underlying materials properties
Ashby: Materials Selection in Mechanical Design, 3e, Butterworth-Heinemann, 2005, $67.95; £31.99; €46.95, ISBN: 0-7506-6168-2
Smallman & Ngan: Physical Metallurgy and Advanced Materials, 7e, Butterworth-Heinemann, 2007, $79.95, £39.99, €57.95, ISBN: 978-0-7506-6906-1
- casestudies
- 00~Figures in Chapter.zip
- 01~Chapter 1.zip
- 02~Chapter 2.zip
- 03~Chapter 3.zip
- 04~Chapter 4.zip
- 05~Chapter 5.zip
- 06~Chapter 6.zip
- 07~Chapter 7.zip
- 08~Chapter 8.zip
- 09~Chapter 9.zip
- 10~Chapter 10.zip
- 11~Chapter 11.zip
- 12~Chapter 12.zip
- 13~Chapter 13.zip
- 14~Chapter 14.zip
- 15~Chapter 15.zip
- 16~Chapter 16.zip
- 17~17.zip
- 18~Chapter 18.zip
- 19~Chapter 19.zip
- exercises
- 00~All Chapters.zip
- 01~Chapter 1_Types of Materials, Electron Energy Bands, and Chemical Bonds.ppt
- 02~Chapter 2_The Strength of Materials.ppt
- 03~Chapter 3 Deformation of Metals and Crystal Structure.ppt
- 04~Chapter 4 Strengthening and Forming Metals.ppt
- 05~Chapter 5 Phase Diagrams.ppt
- 06~Chapter 6 Reaction Kinetics and the Thermal Processing of Metals.ppt
- 07~Chapter 7 Metallic Alloys and Their Use.ppt
- 08~Chapter 8 Ceramics.ppt
- 09~Chapter 9 Polymers.ppt
- 10~Chapter 10 Composites.ppt
- 11~Chapter 11 Conductors, Insulators, and Semiconductors.ppt
- 12~Chapter 12 Fabrication of Integrated Circuits and MEMs.ppt
- 13~Chapter 13 Optical Materials.ppt
- 14~Chapter 14 Magnetic Materials.ppt
- 15~Chapter 15 Batteries.ppt
- 16~Chapter 16 Corrosion and Wear.ppt
- 17~Chapter 17 Biomaterials.ppt
- 18~Chapter 18 Nanomaterials.ppt
- 19~Chapter 19 The Characterization of Materials.ppt
- manual
- pictures
- slides
- 00~All Chapters (PPT).zip
- 01~Chapter 1.ppt
- 02~Chapter 2.ppt
- 03~Chapter 3.ppt
- 04~Chapter 4.ppt
- 05~Chapter 5.ppt
- 06~Chapter 6.ppt
- 07~Chapter 7.ppt
- 08~Chapter 8.ppt
- 09~Chapter 9.ppt
- 10~Chapter 10.ppt
- 11~Chapter 11.ppt
- 12~Chapter 12.ppt
- 13~Chapter 13.ppt
- 14~Chapter 14.ppt
- 15~Chapter 15.ppt
- 16~Chapter 16.ppt
- 17~Chapter 17.ppt
- 18~Chapter 18.ppt
- 19~Chapter 19.ppt
