Design of Machine Elements / Edition 8

Design of Machine Elements / Edition 8

Design of Machine Elements / Edition 8
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ISBN-10:
0130489891
ISBN-13:
9780130489890
Pub. Date:
10/14/2003
Publisher:
Pearson Education
ISBN-10:
0130489891
ISBN-13:
9780130489890
Pub. Date:
10/14/2003
Publisher:
Pearson Education
Design of Machine Elements / Edition 8

Design of Machine Elements / Edition 8

Overview

For a one or two-term introductory Machine Design course in Mechanical Engineering Departments, or Mechanical Engineering Technology.

Considered a classic in its field, this edition of Design of Machine Elements represents the over 80 years of combined classroom and industry experience of its three authors. The text presents a comprehensive survey of machine elements and analytical design methods and gives students the tools and techniques necessary to facilitate design calculations for the most frequently encountered mechanical elements.

Product Details

ISBN-13: 9780130489890
Publisher: Pearson Education
Publication date: 10/14/2003
Edition description: REV
Pages: 912
Product dimensions: 7.50(w) x 9.50(h) x 2.25(d)

Read an Excerpt

We are pleased to publish this eighth edition of a text that has become a classic among the machine design community. This new edition contains a number of important improvements over the previous edition.

The example problems have been reformatted using a structured approach. This addition should make the logic of the example problems much easier to follow, and the authors recommend that the student of machine design adopt this structured approach in their work.

Most of the spreadsheet modules found in the previous edition have been upgraded and improved. In many cases the use of "drop-down menus" allows the user to switch between unit systems without the need to switch to a different module. Additionally, the spreadsheet modules now include command buttons to allow the user to view additional information of importance to their application. In one of the spreadsheets, the user can produce a scaled plot of the Mohr's Circle for a given state of two-dimensional stress. Some completely new spreadsheet modules have been added to allow a greater range of problems to be solved.

Perhaps one of the most important new features of this edition is the inclusion of a chapter on design with plastic materials. This chapter, written by L. E. Hornberger, a world-class leader in plastics design and recycling, provides an excellent overview of how plastic materials are having a strong positive influence on the design of machine elements. This new edition represents over 80 years of experience of its three authors in industry and in the classroom. As with any "work in process," we continue to welcome your helpful suggestions for improvement of this text.

As with any project of thismagnitude, there are many people to thank for their suggestions, contributions, and helpful ideas. In particular we thank William L. Cleghorn, University of Toronto; Harvey Hoy, University of Wisconsin; Richard A. Hultin, Rochester Institute of Technology; Ronald L. Prielie, University of North Carolina Charlotte; and Tom Overman, Santa Clara University.

T. E. SHOUP
L. E. HORNBERGER
Santa Clara University

Table of Contents

  • Introduction.
  • 1. Fundamental Principles.
  • 2. Working Stresses and Failure Theories.
  • 3. Design of Shafts.
  • 4. Springs.
  • 5. Screws.
  • 6. Belts, Clutches, Brakes, and Chains.
  • 7. Welded and Riveted Connections.
  • 8. Lubrication.
  • 9. Ball and Roller Bearings.
  • 10. Spur Gears.
  • 11. Helical, Bevel and Worm Gears.
  • 12. Miscellaneous Machine Elements.
  • 13. Principles of Form Synthesis.
  • 14. Engineering Materials.
  • 15. Designing with Plastic Materials.
  • Appendix—Spreadsheet Modules.
  • Index.

Preface

We are pleased to publish this eighth edition of a text that has become a classic among the machine design community. This new edition contains a number of important improvements over the previous edition.

The example problems have been reformatted using a structured approach. This addition should make the logic of the example problems much easier to follow, and the authors recommend that the student of machine design adopt this structured approach in their work.

Most of the spreadsheet modules found in the previous edition have been upgraded and improved. In many cases the use of 'drop-down menus' allows the user to switch between unit systems without the need to switch to a different module. Additionally, the spreadsheet modules now include command buttons to allow the user to view additional information of importance to their application. In one of the spreadsheets, the user can produce a scaled plot of the Mohr's Circle for a given state of two-dimensional stress. Some completely new spreadsheet modules have been added to allow a greater range of problems to be solved.

Perhaps one of the most important new features of this edition is the inclusion of a chapter on design with plastic materials. This chapter, written by L. E. Hornberger, a world-class leader in plastics design and recycling, provides an excellent overview of how plastic materials are having a strong positive influence on the design of machine elements. This new edition represents over 80 years of experience of its three authors in industry and in the classroom. As with any 'work in process,' we continue to welcome your helpful suggestions for improvement of this text.

As with any project of this magnitude, there are many people to thank for their suggestions, contributions, and helpful ideas. In particular we thank William L. Cleghorn, University of Toronto; Harvey Hoy, University of Wisconsin; Richard A. Hultin, Rochester Institute of Technology; Ronald L. Prielie, University of North Carolina Charlotte; and Tom Overman, Santa Clara University.

T. E. SHOUP
L. E. HORNBERGER
Santa Clara University

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