The Science and Engineering of Materials Sixth Edition by Donald R. Askeland and Wendelin J. Wright is a textbook that covers the fundamentals and applications of materials science and engineering. The book is based on the structure-processing-properties paradigm, which means that it explains how the atomic structure of materials affects their processing methods and their resulting properties and performance. The book aims to provide enough scientific concepts to help the reader understand the basic phenomena of materials, as well as enough engineering principles to prepare the reader for professional practice in various fields.
The book is divided into 22 chapters, which are organized into five parts:
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Part I: Introduction to Materials Science and Engineering
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Part II: Structure and Properties of Materials
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Part III: Phase Diagrams and Heat Treatment
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Part IV: Strengthening Mechanisms and Failure Analysis
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Part V: Materials for Engineering Design
The book covers a wide range of topics, such as atomic arrangements, imperfections, diffusion, mechanical properties, solidification, phase diagrams, heat treatment, strengthening mechanisms, corrosion, wear, thermal properties, electrical properties, magnetic properties, optical properties, and more. The book also provides examples of materials selection and design considerations for various engineering applications, such as aerospace, automotive, biomedical, civil, electrical, and mechanical engineering. The book also includes numerous figures, tables, charts, graphs, diagrams, equations, examples, exercises, problems, case studies, and references to help the reader learn and apply the concepts.
The book is intended for students of engineering rather than materials who have completed prerequisites in chemistry, physics, and mathematics. The book can be used for a one-semester or a two-semester course in materials science and engineering. The book also serves as a useful reference for subsequent courses in manufacturing, materials, design, or materials selection.
The book is available in PDF format: On SmartLearn.
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The Science and Engineering Of Materials | Sixth Edition
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The science and engineering of materials is a fascinating field that explores the relationship between the structure, processing, and properties of different materials. Materials scientists and engineers use their knowledge of chemistry, physics, and mathematics to design and create materials that have specific characteristics and applications. Some of the materials they work with include metals, ceramics, polymers, composites, electronic materials, magnetic materials, photonic materials, and more.
One of the most popular and comprehensive textbooks on this subject is The Science and Engineering of Materials by Donald R. Askeland and Wendelin J. Wright. This book covers the fundamentals of atomic structure, atomic arrangements, imperfections, atom movements, mechanical properties, solidification, phase diagrams, heat treatment, strengthening mechanisms, corrosion, wear, and thermal properties of materials. It also provides examples of materials selection and design considerations for various engineering applications. The book is intended for students of engineering rather than materials who have completed prerequisites in chemistry, physics, and mathematics.
Another textbook that covers similar topics is The Science and Design of Engineering Materials by James P. Schaffer, Ashok Saxena, Stephen D. Antolovich, Thomas H. Sanders Jr., and Steven B. Warner. This book focuses on the design aspects of materials engineering and emphasizes the use of quantitative methods to solve materials problems. It also introduces the concept of materials selection charts and the Ashby approach to materials selection. The book is suitable for undergraduate students in mechanical engineering, civil engineering, aerospace engineering, and materials science.
FAQS
what is the scope of material science and engineering
The scope of material science and engineering is very broad and interdisciplinary. Material science and engineering is the study of the structure, properties, processing, and performance of materials that are used in various fields of engineering and technology. Material science and engineering can help solve many real-world problems related to nanotechnology, biotechnology, information technology, energy, manufacturing, and more.
Some of the areas that material science and engineering covers are:
- Biotechnology:
- Ceramics:
- Combinatorial:
- Energy:
- Liquid crystals:
- Metals:
- Metamaterials:
- Nanotechnology:
- Plasma: