EBOOK Shigley's Mechanical Engineering Design in SI Units, 11th Edition
To access your eBook, sign in or register at McGraw Hill Bookshelf and you will be instructed to enter your access code.
After adding your eBook to the McGraw Hill Bookshelf, download the ReadAnywhere app on the App Store or Google Play. Sign into your McGraw Hill Bookshelf or Connect account to access your eBook on the go and download chapters for offline reading.
For McGraw Hill eBook & ReadAnywhere support, click here.
Chapter 1. Introduction to Mechanical Engineering Design
Chapter 2. Materials
Chapter 3. Load and Stress Analysis
Chapter 4. Deflection and Stiffness
Part 2. Failure Prevention
Chapter 5. Failures Resulting from Static Loading
Chapter 6. Fatigue Failure Resulting from Variable Loading
Part 3. Design of Mechanical Elements
Chapter 7. Shafts and Shaft Components
Chapter 8. Screws, Fasteners, and the Design of Nonpermanent Joints
Chapter 9. Welding, Bonding, and the Design of Permanent Joints
Chapter 10. Mechanical Springs
Chapter 11. Rolling-Contact Bearings
Chapter 12. Lubrication and Journal Bearings
Chapter 13. Gears—General
Chapter 14. Spur and Helical Gears
Chapter 15. Bevel and Worm Gears
Chapter 16. Clutches, Brakes, Couplings, and Flywheels
Chapter 17. Flexible Mechanical Elements
Chapter 18. Power Transmission Case Study
Part 4. Special Topics
Chapter 19 Finite-Element Analysis
Chapter 20 Geometric Dimensioning and Tolerancing
Appendixes
A. Useful Tables
B. Answers to Selected Problems
Index
Shigley’s Mechanical Engineering Design is a standard text intended for beginners of the subject area. This revised edition in SI units focuses on blending fundamental concepts with modern emphasis on design and new applications. It covers the basics of machine design, including the design process, engineering mechanics and materials, failure prevention under static and variable loading, and characteristics of the principal types of mechanical elements. As an indispensable reference text, it makes students familiar with the basis for decisions as well as the standards of industrial components and helps them transition into practicing engineers.
McGraw Hill’s Connect is available as an optional add on item. Connect is an integrated learning system that empowers students by continuously adapting to deliver exactly what they need, when they need it, and how they need it so that class time is more effective. Connect allows instructors to assign assignments and tests easily and automatically grades and records scores of the student’s work.
KEY HIGHLIGHTS
- Offers a practical approach to the subject through a wide range of real-world applications and examples
- Updated and revised chapters on Fatigue Failure Resulting from Variable Loading and Lubrication and Journal Bearings
- Expanded coverage of plastic deformation, strain hardening, true stress and strain, and cyclic stress strain properties
- Rich pedagogy:
- 150+ solved examples
- 1050+ end-of-chapter problems
McGraw Hill Connect is an award-winning digital teaching and learning solution that empowers students to achieve better outcomes and enables instructors to improve course management efficiency.
High-Quality Course Material
Our trusted solutions are designed to help students actively engage in course content and develop critical higher-level thinking skills while offering you the flexibility to tailor your course to the ways you teach and the ways your students learn.
Assignments & Automatic Grading
Connect features a question bank that you can select from to create homework, practice tests and quizzes. Dramatically reduce the amount of time you spend reviewing homework and grading quizzes, freeing up your valuable time to spend on teaching.
Analytics & Reporting
Monitor progress and improve focus with Connect’s visual and actionable dashboards. Reports are available to empower both instructors and students with real-time performance analytics.
Seamless Integration
Link your Learning Management with Connect for single sign-on and gradebook synchronization, with all-in-one ease for you and your students.