Part 1 - Basics
1) Introduction to Mechanical Engineering Design
2) Materials
3) Load and Stress Analysis
4) Deflection and Stiffness
Part 2 - Failure Prevention
5) Failures Resulting from Static Loading
6) Fatigue Failure Resulting from Variable Loading
Part 3 - Design of Mechanical Elements
7) Shafts and Shaft Components
8) Screws, Fasteners, and the Design of Nonpermanent Joints
9) Welding, Bonding, and the Design of Permanent Joints
10) Mechanical Springs
11) Rolling-Contact Bearings
12) Lubrication and Journal Bearings
13) Gears - General
14) Spur and Helical Gears
15) Bevel and Worm Gears
16) Clutches, Brakes, Couplings and Flywheels
17) Flexible Mechanical Elements
18) Power Transmission Case Study
Part 4 - Special Topics
19) Finite-Element Analysis
20) Geometric Dimensioning and Tolerancing
Appendices
A - Useful Tables
B - Answers to Selected Problems
Richard G. Budynas is Professor Emeritus of the Kate Gleason
College of Engineering at Rochester Institute of Technology. He has
over 40 years experience in teaching and practicing mechanical
engineering design. He is the author of a McGraw-Hill textbook,
Advanced Strength and Applied Stress Analysis, Second Edition; and
co-author of a McGraw-Hill reference book, Roark's Formulas for
Stress and Strain, Seventh Edition. He was awarded the BME of Union
College, MSME of the University of Rochester, and the Ph.D. of the
University of Massachusetts. He is a licensed Professional Engineer
in the state of New York.
J. Keith Nisbett is an Associate Professor and Associate Chair of
Mechanical Engineering at the Missouri University of Science and
Technology. He has over 25 years of experience with using and
teaching from this classic textbook. As demonstrated by a steady
stream of teaching awards, including the Governor’s Award for
Teaching Excellence, he is devoted to finding ways of communicating
concepts to the students. He was awarded the BS, MS, and Ph.D. of
the University of Texas at Arlington.
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