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Mark's Calculations For Machine Design
CITATION
Brown, Thomas
.
Mark's Calculations For Machine Design
.
US
: McGraw-Hill Professional, 2005.
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Mark's Calculations For Machine Design
Authors:
Thomas Brown
Published:
February 2005
eISBN:
9780071466912 0071466916
|
ISBN:
9780071436892
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Book Description
Table of Contents
Terms of Use
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Contents
Foreword
Preface
Acknowledgments
Part 1 Strength of Machines
Chapter 1. Fundamental Loadings
1.1. Introduction
1.2. Axial Loading
1.3. Direct Shear
1.4. Torsion
1.5. Bending
Chapter 2. Beams: Reactions, Shear Force and Bending Moment Distributions, and Deflections
2.1. Introduction
2.2. Simply-Supported Beams
2.2.1. Concentrated Force at Midpoint
2.2.2. Concentrated Force at Intermediate Point
2.2.3. Concentrated Couple
2.2.4. Uniform Load
2.2.5. Triangular Load
2.2.6. Twin Concentrated Forces
2.2.7. Single Overhang: Concentrated Force at Free End
2.2.8. Single Overhang: Uniform Load
2.2.9. Double Overhang: Concentrated Forces at Free Ends
2.2.10. Double Overhang: Uniform Load
2.3. Cantilevered Beams
2.3.1. Concentrated Force at Free End
2.3.2. Concentrated Force at Intermediate Point
2.3.3. Concentrated Couple
2.3.4. Uniform Load
2.3.5. Triangular Load
Chapter 3. Advanced Loadings
3.1. Introduction
3.2. Pressure Loadings
3.2.1. Thin-Walled Vessels
3.2.2. Thick-Walled Cylinders
3.2.3. Press or Shrink Fits
3.3. Contact Loading
3.3.1. Spheres in Contact
3.3.2. Cylinders in Contact
3.4. Rotational Loading
Chapter 4. Combined Loadings
4.1. Introduction
4.2. Axial and Torsion
4.3. Axial and Bending
4.4. Axial and Thermal
4.5. Torsion and Bending
4.6. Axial and Pressure
4.7. Torsion and Pressure
4.8. Bending and Pressure
Chapter 5. Principal Stresses and Mohr’s Circle
5.1. Introduction
5.2. Principal Stresses
5.3. Mohr’s Circle
Chapter 6. Static Design and Column Buckling
6.1. Static Design
6.1.1. Static Design for Ductile Materials
6.1.2. Static Design for Brittle Materials
6.1.3. Stress-Concentration Factors
6.2. Column Buckling
6.2.1. Euler Formula
6.2.2. Parabolic Formula
6.2.3. Secant Formula
6.2.4. Short Columns
Chapter 7. Fatigue and Dynamic Design
7.1. Introduction
7.2. Reversed Loading
7.3. Marin Equation
7.4. Fluctuating Loading
7.5. Combined Loading
Part 2 Application to Machines
Chapter 8. Machine Assembly
8.1. Introduction
8.2. Bolted Connections
8.2.1. The Fastener Assembly
8.2.2 The Members
8.2.3. Bolt Strength and Preload
8.2.4. The External Load
8.2.5. Static Loading
8.2.6. Fatigue Loading
8.3. Welded Connections
8.3.1. Axial and Transverse Loading
8.3.2. Torsional Loading
8.3.3. Bending Loading
8.3.4. Fillet Welds Treated as Lines
8.3.5. Fatigue Loading
Chapter 9. Machine Energy
9.1. Introduction
9.2. Helical Springs
9.2.1. Loads, Stresses, and Deflection
9.2.2. Spring Rate
9.2.3. Work and Energy
9.2.4. Series and Parallel Arrangements
9.2.5. Extension Springs
9.2.6. Compression Springs
9.2.7. Critical Frequency
9.2.8. Fatigue Loading
9.3. Flywheels
9.3.1. Inertial Energy of a Flywheel
9.3.2. Internal Combustion Engine Flywheels
9.3.3. Punch Press Flywheels
9.3.4. Composite Flywheels
Chapter 10. Machine Motion
10.1. Introduction
10.2. Linkages
10.2.1. Classic Designs
10.2.2. Relative Motion
10.2.3. Cyclic Motion
10.3. Gear Trains
10.3.1. Spur Gears
10.3.2. Planetary Gears
10.4. Wheels and Pulleys
10.4.1. Rolling Wheels
10.4.2. Pulley Systems
Bibliography
Index