Shigley Mechanical Engineering Design 9th edition by Richard Budynas, Keith Nisbett 0073529281 9780073529288
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Authors:Richard Budynas; Keith Nisbett , Series:Mechanical engineering [15] , Tags:Technology & Engineering; Mechanical , Author sort:Budynas, Richard & Nisbett, Keith , Ids:9780073398204 , Languages:Languages:eng , Published:Published:Jan 2014 , Publisher:McGraw-Hill Education , Comments:Comments:Shigley’s Mechanical Engineering Design is intended for students beginning the study of mechanical engineering design. Students will find that the text inherently directs them into familiarity with both the basics of design decisions and the standards of industrial components. It combines the straightforward focus on fundamentals that instructors have come to expect, with a modern emphasis on design and new applications. This edition maintains the well-designed approach that has made this book the standard in machine design for nearly 50 years.McGraw-Hill’s Connect, is also available as an optional, add on item. Connect is the only integrated learning system that empowers students by continuously adapting to deliver precisely what they need, when they need it, how they need it, so that class time is more effective. Connect allows the professor to assign homework, quizzes, and tests easily and automatically grades and records the scores of the student’s work. Problems are randomized to prevent sharing of answers an may also have a “multi-step solution” which helps move the students’ learning along if they experience difficulty.
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ISBN 10: 0073529281
ISBN 13: 9780073529288
Author: Richard Budynas; Keith Nisbett
Shigley’s Mechanical Engineering Design is intended for students beginning the study of mechanical engineering design. Students will find that the text inherently directs them into familiarity with both the basics of design decisions and the standards of industrial components. It combines the straightforward focus on fundamentals that instructors have come to expect, with a modern emphasis on design and new applications.
The ninth edition of Shigley’s Mechanical Engineering Design maintains the approach that has made this book the standard in machine design for nearly 50 years.
Shigley Mechanical Engineering Design 9th Table of contents:
Part 1: Basics
1. Introduction
1.1 Design
1.2 Mechanical Engineering Design
1.3 Interaction between Design Process Elements
1.4 Design Tools and Resources
1.5 The Design Engineer’s Professional Responsibilities
1.6 Codes and Standards
1.7 Economics
1.8 Safety and Product Liability
1.9 The Adequacy Assessment
1.10 Uncertainty
1.11 Stress and Strength
1.12 Design Factor and Factor of Safety
1.13 Reliability
1.14 Units and Preferred Units
1.15 Calculations and Significant Figures
Problems
2. Statistical Considerations
2.1 Random Variables
2.2 Arithmetic Mean, Variance, and Standard Deviation
2.3 Probability Distributions
2.4 Propagation of Error
2.5 Linear Regression
2.6 Limits and Fits
2.7 Dimensions and Tolerances
Problems
3. Materials
3.1 Material Strength and Stiffness
3.2 The Statistical Significance of Material Properties
3.3 Strength and Cold Work
3.4 Hardness
3.5 Impact Properties
3.6 Temperature Effects
3.7 Numbering Systems
3.8 Sand Casting
3.9 Shell Molding
3.10 Investment Casting
3.11 Powder-Metallurgy Process
3.12 Hot-Working Processes
3.13 Cold-Working Processes
3.14 The Heat Treatment of Steel
3.15 Alloy Steels
3.16 Corrosion-Resistant Steels
3.17 Casting Materials
3.18 Nonferrous Metals
3.19 Plastics
3.20 Composite Materials
Problems
4. Load and Stress Analysis
4.1 Equilibrium and Free-Body Diagrams
4.2 Shear Force and Bending Moments in Beams
4.3 Singularity Functions
4.4 Stress
4.5 Cartesian Stress Components
4.6 Mohr’s Circle for Plane Stress
4.7 General Three-Dimensional Stress
4.8 Elastic Strain
4.9 Uniformly Distributed Stresses
4.10 Normal Stresses for Beams in Bending
4.11 Beams with Asymmetrical Sections
4.12 Shear Stresses for Beams in Bending
4.13 Torsion
4.14 Stress Concentration
4.15 Stresses in Pressurized Cylinders
4.16 Stresses in Rotating Rings
4.17 Press and Shrink Fits
4.18 Temperature Effects
4.19 Curved Beams in Bending
4.20 Contact Stresses
4.21 Summary
Problems
5. Deflection and Stiffness
5.1 Spring Rates
5.2 Tension, Compression, and Torsion
5.3 Deflection Due to Bending
5.4 Beam Deflection Methods
5.5 Finding Beam Deflections by Superposition
5.6 Beam Deflections by Singularity Functions
5.7 Strain Energy
5.8 Castigliano’s Theorem
5.9 Deflection of Curved Members
5.10 Statically Indeterminate Problems
5.11 Compression Members–General
5.12 Long Columns with Central Loading
5.13 Intermediate-Length Columns with Central Loading
5.14 Columns with Eccentric Loading
5.15 Struts, or Short Compression Members
5.16 Shock and Impact
5.17 Suddenly Applied Loading
Problems
Part 2: Failure Prevention
6. Failures Resulting from Static Loading
6.1 Static Strength
6.2 Stress Concentration
6.3 Failure Theories
6.4 Maximum-Shear-Stress Theory for Ductile Materials
6.5 Distortion-Energy Theory for Ductile Materials
6.6 Coulomb-Mohr Theory for Ductile Materials
6.7 Failure of Ductile Materials Summary
6.8 Maximum-Normal-Stress Theory for Brittle Materials
6.9 Modifications of the Mohr Theory for Brittle Materials
6.10 Failure of Brittle Materials Summary
6.11 Selection of Failure Criteria
6.12 Static or Quasi-Static Loading on a Shaft
6.13 Introduction to Fracture Mechanics
6.14 Stochastic Analysis
Problems
7. Fatigue Failure Resulting from Variable Loading
7.1 Introduction to Fatigue in Metals
7.2 Approach to Fatigue Failure in Analysis and Design
7.3 Fatigue-Life Methods
7.4 The Stress-Life Method
7.5 The Strain-Life Method
7.6 The Linear-Elastic Fracture Mechanics Method
7.7 The Endurance Limit
7.8 Fatigue Strength
7.9 Endurance Limit Modifying Factors
7.10 Stress Concentration and Notch Sensitivity
7.11 Characterizing Fluctuating Stresses
7.12 Fatigue Failure Criteria for Fluctuating Stress
7.13 Torsional Fatigue Strength under Fluctuating Stresses
7.14 Combinations of Loading Modes
7.15 Varying, Fluctuating Stresses; Cumulative Fatigue Damage
7.16 Surface Fatigue Strength
7.17 Stochastic Analysis
Problems
Part 3: Design of Mechanical Elements
8. Screws, Fasteners, and the Design of Nonpermanent Joints
8.1 Thread Standards and Definitions
8.2 The Mechanics of Power Screws
8.3 Threaded Fasteners
8.4 Joints–Fastener Stiffness
8.5 Joints–Member Stiffness
8.6 Bolt Strength
8.7 Tension Joints–The External Load
8.8 Relating Bolt Torque to Bolt Tension
8.9 Statically Loaded Tension Joint with Preload
8.10 Gasketed Joints
8.11 Fatigue Loading of Tension Joints
8.12 Shear Joints
8.13 Setscrews
8.14 Keys and Pins
8.15 Stochastic Considerations
Problems
9. Welding, Bonding, and the Design of Permanent Joints
9.1 Welding Symbols
9.2 Butt and Fillet Welds
9.3 Stresses in Welded Joints in Torsion
9.4 Stresses in Welded Joints in Bending
9.5 The Strength of Welded Joints
9.6 Static Loading
9.7 Fatigue Loading
9.8 Resistance Welding
9.9 Bolted and Riveted Joints Loaded in Shear
9.10 Adhesive Bonding
Problems
10. Mechanical Springs
10.1 Stresses in Helical Springs
10.2 The Curvature Effect
10.3 Deflection of Helical Springs
10.4 Compression Springs
10.5 Stability
10.6 Spring Materials
10.7 Helical Compression Spring Design for Static Service
10.8 Critical Frequency of Helical Springs
10.9 Fatigue Loading of Helical Compression Springs
10.10 Helical Compression Spring Design for Fatigue Loading
10.11 Extension Springs
10.12 Helical Coil Torsion Springs
10.13 Belleville Springs
10.14 Miscellaneous Springs
10.15 Summary
Problems
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