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Machine Component Design, 5th Edition International Student Version
John Wiley and Sons Ltd, Feb 2012, Pages: 928
Considered a standard in the course, Juvinall and Marshek's, Machine Component Design continues to focus on the fundamentals of component design -- free body diagrams, force flow concepts, failure theories, and fatigue design, with applications to fasteners, springs, bearings, gears, clutches, and brakes. Problem-solving skills are developed by the implementation of a proven methodology which provides a structure for accurately formulating problems and clearly presenting solutions. The fifth edition includes additional coverage of composites, the material selection process, and wear/wear theory, along with new and updated examples and homework problems.
New to this Edition
- New and revised end of chapter problems (approximately 25%) and worked examples throughout the book
- Modern/current issues and safety considerations-New homework problems outline real world safety issues adapted from actual case studies. Homework questions which help the student research, outline, and write on issues which confront the modern engineer are scattered throughout the text.
- Composites-A new section is presented to introduce composite materials and their properties to the student. New references provide the student with a foundation of information regarding composite materials
- Engineering material selection process-Ashby's material selection charts are reviewed and discussed and are available as an aid to students in learning more about engineering materials. New topics MIL-HDBK-5J and MIL-HDBK-17are introduced which aid the student in selection and use of common engineering materials
- Web site addresses and problems-Web site addresses are given throughout the text to provide the student with access to additional information on topics including industrial standards, part selection, and properties of materials. Problems appear at the end of the chapter that require the student to utilize the internet in solving various machine component design problems
- Three-dimensional stress-A new sample problem gives the student a powerful tool to analyze complex stress states, and new related homework problems give opportunity for the student to polish analysis skills
- Wear and wear theory-Additional text on discretization wear theory outlines the use of wear models for machine parts. Associated homework problems introduce the student to the unique test apparatus used to determine wear coefficients.
- Shaft critical speeds-This section is expanded with additional solution methods and theory discussion including explanation of both Rayleigh's and Dunkerley's equations. New and revised homework problems accompany this section to challenge the student regarding these ideas.
- Appendix-Contributed appendixes have been added for using reference MIL-HDBK-5J, vectorial solution methods, normal distributions, fatigue cycle formulas, and gear terminology
Hallmark Features
- Problem Solving Methodology & Graphical Procedures. The problem-solving methodology used in the text helps students to formulate machine component problems accurately and to present solutions clearly. The graphical procedures employed help students to understand and visualize what is going on, develop added insight about the significance of the results, and think about how the design might be improved
- Emphasizes the basic concepts of Fracture Mechanics - Section includes stress-intensity factor charts for eight common geometric configurations. Introductory fracture mechanics problems support understanding these critical concepts
- Fatigue coverage. Chapter 8's Fatigue coverage continues its graphical approach of previous editions, including a section on fatigue crack growth which examines the fracture mechanics of crack growth under alternating loads. This important chapter offers additional analysis problems and many new open-ended problems
- Extensive coverage in appendices of important reference information for this course including the following topics: engineering materials, processing methods, joinability, materials for machine component design, selected engineering materials, and relations between failure modes and material properties.
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