Fundamentals of machine component design
This indispensable reference goes beyond explaining the basics of mechanics, strength of materials, and materials properties by showing readers how to apply these fundamentals to specific machine components. They' ll learn how to solve mechanical component design problems while reviewing numerous examples and working on end-of-chapter problems. With the help of graphical procedures, they' ll also gain the skills needed to visualize the solution format, develop added insight about the significance of the results, and determine how the design can be improved.
69 pages matching ratio in this book
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alloys angle applied axial loading axis beam bearing belt bending stress bolt brake capacity Castigliano's method clutch coefficient of friction components compression corresponding corrosion cycles deflection Determine diagram diameter drive ductile elastic endurance limit engine equation equilibrium estimated fatigue failure fatigue strength FIGURE fluid coupling fracture gear-tooth helical gears hence impact increased involved lubrication machine material mating maximum metal motor normal notch Note percent pinion pitch plane plate pressure radial radius ratio reduced residual stresses rivets roller rolling-element bearings rotating S-N curve safety factor SAMPLE PROBLEM screw Section shaft shear stress shown in Fig shows Solution speed spring sprocket spur gears standard steel strain stress concentration surface fatigue temperature tensile tensile stress thread tightening tooth torque torsion springs torsional transmission usually values velocity viscosity wear weld worm worm gear yield strength zero