Design of machine elements / M. F. Spotts, T. E. Shoup & L. E. Hornberger.
Publication details: New Jersey : Pearson/Prentice Hall, c2004.Edition: 8th editionDescription: xvi, 928 p. : ill. ; 24 cmISBN:- 9780130489890
- 621.815 22 SPO
Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Book Closed Access | Engineering Library | 621.815 SPO 1 (Browse shelf(Opens below)) | 1 | Available | BUML23100532 |
CONTENTS
Introduction
1.1 Problem solving and design
1.2 The design process
1.3 Stages of design
1.4 Finding and using information in machine design
1.5 Recognised standards for design
etc
Chapter 1 Fundamental principles
1.1 Statical equilibrium
1.2 Engineering materials
1.3 Tension and compression stress
1.4 Tension and compression in SI Units
1.5 Force and mass
etc
Chapter 2 Working stresses and failure theories
2.1 Failure and phenomenological failure theories
2.2 Stress-strain diagrams
2.3 Phenomenological failure theories based on stress
2.4 Stress concentration caused by sudden change in form
etc
Chapter 3 Design of Shafts
3.1 Torsion of circular shaft
3.2 Power Transmitted
3.3 Maximum static shearing stress
3.4 Design of shafts for fluctuating loads
3.5 kess
etc
Chapter 4 Springs
4.1 Helical springs
4.2 Properties of spring materials
4.3 Hot-formed springs
4.4 Helical spring of minimum volume of material-static load
4.5 Optimum design of helical spring
4.6 Fatigue of Springs
etc
Chapter 5 Screws
5.1 Kinds of threads
5.2 Standardized threads
5.3 Unified threads
5.4 American national threads
5.5 Identification symbols
5.6 SI Threads
etc
Chapter 6 Belt, Clutches, Brakes and Chains
6.1 V-belts
6.2 Center Distance for V-bet drive
6.3 Design of V-belts
6.4 Other types of belts
6.5 Disk brakes
etc
Chapter 7 Welded and riveted connections
7.1 Fabrication by welding
7.2 Fusion welding
7.3 Strength of fusion welds
7.4 Eccentrically Loaded welds-static loads
7.5 Stress Concentration in welds
etc
Chapter 8 Lubrication
8.1 Viscosity and newton's law
8.2 Petroff's bearing equation
8.3 Load- carrying journal bearing
8.4 Load and friction Curves for journal bearings
8.5 Power lost friction
etc
Chapter 9 Ball and Roller Bearings
9.1 Construction and types of ball bearings
9.2 Selection of ball bearings
9.3 Effect of Axial Load
9.4 Design for variable Loading
9.5 Static Capacity
etc
Chapter 10 Spur Gears
10.1 Introduction
10.2 Velocity law of toothed gearing
10.3 Kinematics of involute gear teeth
10.4 Cycloidal gear teeth
10.5 Pitches of gear teeth
etc
Chapter 11 Helical, Bevel, And Worm Gears
11.1 Helical gears
11.2 The geometry of helical gears
11.3 Virtual number of teeth
11.4 Center distance of mating gears
11.5 Contact ratios for helical gears
etc
Chapter 12 Miscellaneous machine elements
12.1 Stresses in a thick cylinder
12.2 Shrink and press fit stresses
12.3 Stress concentration caused by press Fit
12.4 Stresses in disk flywheel
12.5 Flywheel with spokes and Rim
etc
Chapter 13 Principles of form synthesis
13.1 A review of stress patterns in machine parts
13.2 The principle of form synthesis
13.3 Exception to the form synthesis
13.4 Design of joints
13.5 Conclusion
Chapter 14 Engineering materials
14.1 The tension test
14.2 Physical constitution of steel
14.3 Types of steel used in machine construction
14.4 Numbering systems for carbon and alloy steels
14.5 Plain carbon steels
14.6 Alloy Steels
etc
Chapter 15 Designing with plastic materials
15.1 Introduction
15.2 The basics: the chemistry and physics of plastics
15.3 Characteristics of thermoplastic materials
15.4 Amorphous vs. Semicrystalline thermoplastics
15.5 Characteristics of thermoset materials
15.6 Designing with plastic
etc
Includes Index : p. 914-928
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