Fundamentals of machine elements / Steven R. Schmid, Bernard J. Hamrock, and Bo O. Jacobson.

art I - FundamentalsIntroductionWhat is Design?Design of Mechanical SystemsDesign as a Multidisciplinary EndeavorDesign of Machine ElementsComputers in DesignCatalogs and VendorsUnitsUnit ChecksSignificant FiguresSummaryLoad, Stress, and StrainIntroductionCritical SectionLoad Classification and Sign ConventionSupport ReactionsStatic EquilibriumFree-Body DiagramSupported BeamsShear and Moment DiagramsStressStress ElementStress TensorPlane StressMohr's CircleThree-Dimensional StressesOctahedral StressesStrainStrain TensorPlane StrainSummaryIntroduction to Materials and ManufacturingIntroductionDuctile and Brittle MaterialsClassification of Solid MaterialsStress-Strain DiagramsProperties of Solid MaterialsStress-Strain RelationshipsTwo-Parameter Materials ChartsEffects of ManufacturingSummaryStresses and StrainsIntroductionProperties of Beam Cross SectionsNormal Stress and StrainTorsionBending Stress and StrainTransverse Shear Stress and StrainSummaryDeformationIntroductionMoment-Curvature RelationSingularity FunctionsMethod of SuperpositionStrain EnergyCastigliano's TheoremSummaryFailure Prediction for Static LoadingIntroductionStress ConcentrationFracture MechanicsModes of Crack GrowthFracture ToughnessFailure Prediction for Uniaxial Stress StateFailure Prediction for Multiaxial Stress StateSummaryFatigue and ImpactIntroductionFatigueCyclic StressesStrain Life Theory of FatigueFatigue StrengthFatigue RegimesStress Concentration EffectsThe Modified Endurance LimitCumulative DamageInfluence of Nonzero Mean StressInfluence of Multi-Axial Stress StatesFracture Mechanics Approach to FatigueLinear Impact Stresses and DeformationsSummaryLubrication, Friction, and WearIntroductionSurface ParametersConformal and Nonconformal SurfacesHertzian ContactBearing MaterialsLubricant RheologyRegimes of LubricationFrictionWearSummaryPart II - Machine ElementsColumnsIntroductionEquilibrium RegimesConcentrically Loaded ColumnsEnd ConditionsEuler's Buckling CriterionJohnson's Buckling CriterionAISC CriteriaEccentrically Loaded ColumnsSummaryStresses and Deformations in CylindersIntroductionTolerances and FitsPressurization EffectsRotational EffectsPress FitsShrink FitsSummaryShafting and Associated PartsIntroductionDesign of Shafts for Static LoadingFatigue Design of ShaftsAdditional Shaft Design ConsiderationsCritical Speed of Rotating ShaftsKeys, Roll Pins, Splines and Set ScrewsRetaining Rings and PinsFlywheelsCouplingsSummaryHydrodynamic and Hydrostatic BearingsIntroductionThe Reynolds EquationThrust Slider BearingsJournal Slider BearingsSqueeze Film BearingsHydrostatic BearingsSummaryRolling-Element BearingsIntroductionHistorical OverviewBearing Types and SelectionGeometryKinematicsSeparatorsStatic Load DistributionElastohydrodynamic LubricationFatigue LifeVariable LoadingSummaryGeneral Gear Theory; Spur GearsIntroductionTypes of GearsGear GeometryGear RatioContact Ratio and Gear VelocityTooth Thickness and BacklashGear TrainsGear Manufacture and QualityGear MaterialsLoads Acting on a Gear ToothBending Stresses in Gear TeethContact Stresses in Gear TeethElastohydrodynamic Film ThicknessGear Design SynthesisSummaryHelical, Bevel, and Worm GearsIntroductionHelical GearsBevel GearsWorm GearsSummaryFasteners, Connections, and Power ScrewsIntroductionThread Terminology, Classification, and DesignationPower ScrewsThreaded FastenersRiveted FastenersWelded, Brazed, and Soldered JointsAdhesive BondingIntegrated Snap FastenersSummarySpringsIntroductionSpring MaterialsHelical Compression SpringsHelical Extension SpringsHelical Torsion SpringsLeaf SpringsGas SpringsBelleville SpringsWave SpringsSummaryBrakes and ClutchesIntroductionThermal ConsiderationsThrust Pad Clutches and BrakesCone Clutches and BrakesBlock or Short-Shoe BrakesLong-Shoe, Internal, Expanding Rim BrakesLong-Shoe, External, Contracting Rim BrakesSymmetrically Loaded Pivot-Shoe BrakesBand BrakesSlip ClutchesSummaryFlexible Machine ElementsIntroductionFlat BeltsSynchronous BeltsV-BeltsWire RopesRolling ChainsSummaryAppendicesIndex

Publisher Synopsis "Design is essential in the modern economy, and this book does a superb job in explaining both design analysis and design synthesis. Schmid, Hamrock and Jacobson are well-known experts in the field, and it shows from this concise and well-written book."-Prof. Bharat Bhushan, Ohio Eminent Scholar and The Howard D. Winbigler Professor, Director, Nanoprobe Laboratory for Bio- & Nanotechnology and Biomimetics (NLB2), Ohio State University, Columbus, USA"I have been working as a bearing engineer for nearly two decades, and have come across many different machine design and application problems associated with the rolling element bearing. Most of the time, design problems can be handled quickly if the engineer has a good fundamental understanding of how a machine element works, but this information is unfortunately missing from most conventional treatments of the subject matter. This book gives the reader enough of a fundamental background to understand the machine elements and design the overall system, and it is highly recommended."--Mike Kotzalas, The Timken Company, Boca Raton, Florida, USA"This book is a must for every mechanical engineering student for use as a textbook, and should be in every engineer's library as a reference book. I wish it was available 30 years ago!--Jim Adams, Director, Technical Services, Metal Powder Industries Federation, Princeton, New Jersey, USA "For many years a leading automobile company sponsored Berkeley research on the "Composite Transmission Error Prediction for Automatic Transmissions." I only wish this excellent book was available at that time to bring our software engineers 'up to speed' on gear fundamentals, manufacturing, and gear design synthesis, as well as other machine elements."--Paul Wright, Professor of Mechanical Engineering, University of California, Berkeley, USA