Fundamentals of Machine Component DesignThe latest edition of Juvinall/Marshek's Fundamentals of Machine Component Design focuses on sound problem solving strategies and skills needed to navigate through large amounts of information. Revisions in the text include coverage of Fatigue in addition to a continued concentration on the fundamentals of component design. Several other new features include new learning objectives added at the beginning of all chapters; updated end-of-chapter problems, the elimination of weak problems and addition of new problems; updated applications for currency and relevance and new ones where appropriate; new system analysis problems and examples; improved sections dealing with Fatigue; expanded coverage of failure theory; and updated references. |
Contents
References | 45 |
Static Body Stresses | 69 |
Elastic Strain Deflection and Stability | 115 |
Copyright | |
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alloys angle applied axial loading axis beam bearing bending stress bolt brake Castigliano's method clamping clutch coefficient of friction components compression corresponding corrosion cycles deflection Determine diagram diameter drive ductile elastic endurance limit engine equation equilibrium estimated fatigue strength FIGURE fluid coupling force fracture helical gears hence illustrated impact increased input involved lubrication machine material mating maximum metal motor normal notch Note number of teeth output 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 tooth torque torsion springs torsional values velocity viscosity wear weld worm worm gear yield strength zero