Mechanical Design: An Integrated ApproachPresents an integrated view of machine element design for mechanical engineering students and practicing engineers. This book covers the design process, stress and strain, deflection and stiffness, energy methods, and failure/fatigue criteria. It also covers topics in mechanics. |
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alloys analysis applied Assumptions axial load axis beam bearing belt bending bolt brake buckling Calculate cast iron components compression cross section curve cylinder deflection deformation Design Decision Determine diagram diameter displacement ductile endurance limit engineering equation equilibrium EXAMPLE factor of safety failure fatigue formula fracture friction gear given helical Hooke's law kips length lubrication Machine Design material maximum shear stress McGraw-Hill mechanical metal method modulus of elasticity Mohr's circle moment of inertia Note obtained pitch plane plate principal stresses problems radial radius ratio rotation screw shaft shear force shear stress shown in Figure Solution speed spring static steel strain energy stress concentration stress concentration factor stress-strain structure surface Table tangential teeth temperature tensile tensile stress tension theory thickness thread Tmax tooth torque torsion U.S. customary units ultimate strength values weld yield strength