1st Edition
Materials for Engineers Principles and Applications for Non-Majors
A working understanding of materials principles is essential in every area of engineering. However, the materials requirements of different engineering disciplines can vary considerably. Existing introductory textbooks on engineering materials adopt a universalist approach, providing theoretical development and surveying a landscape of topics suitable for introducing materials engineers to their field. Materials for Engineers: Principles and Applications for Non-Majors has been constructed with the requirements of non-materials engineering students (“non-majors") in mind. The theoretical foundations of material structure and behavior are curated and focused, and the description of the behavior of materials as they pertain to performance, measurement, and design are developed in detail.
The book:
- Places applications and essential measurement methods before detailed theory
- Features a variety of types end-of-chapter exercises, including forum discussion topics for online course components
- Emphasizes computer-based problem solving and includes numerous examples and exercises for MATLAB®
- Includes optional “topic” chapters for course customization, including structures, transportation, and electronics
- Outlines practical details of how and why knowledge of materials is necessary for engineers, including the various roles that materials engineers play and the impact of materials on cost, lifespan, and safety of components and products
This textbook is aimed at undergraduate engineering students taking their first materials engineering course. It can also be used by professional engineers interested in a ready reference. A solutions manual, lecture slides, and example data sets are available for adopting professors.
Introduction. Engineering materials: History and Outlook: From Past to Future. 1. Fundamental Principles: From Atoms to Materials. 2. Materials Properties and Performance: From Structure to Behavior. 3. Materials Testing and Validation: From Uncertainty to Assurance. 4. Making and Modifying Materials: From Raw Material to Finished Product. 5. Designing with Materials: From Imagination to Reality. 6. Materials and Your Career: From Student to Engineer. Topic 1. Materials for Structures: Engineering Components and Systems. Topic 2. Materials for Transportation: Engineering Transit and Logistics Systems. Topic 3. Materials for Electromagnetic and Optical Devices: Engineering with Charges and Fields. Appendix A. Appendix B.
Biography
Jonathan B. Puthoff is Associate Professor in the Chemical and Materials Engineering Department at California State Polytechnic University, Pomona (Cal Poly Pomona). He received his Ph.D. in Materials Science from the University of Wisconsin – Madison, and has a research background in physical metallurgy, materials characterization, adhesives performance, and materials modeling.
Vilupanur A. Ravi is Professor in the Chemical and Materials Engineering Department, California State Polytechnic University, Pomona (Cal Poly Pomona). He has also served as the Department Chair and as the Director of Research and Partnerships for the College of Engineering. Prior to joining Cal Poly Pomona, Dr. Ravi worked in industry on a broad range of materials, solved process engineering problems and led product development efforts. His research interests are in high temperature materials, coatings, and corrosion. His received his PhD in Metallurgical Engineering from the Ohio State University, Columbus, OH.
