0831131225_contents.pdf

VI

Contents

Chapter 1 Introduction ........................................................................................... 11.0 Cam-Follower Systems ...................................................................................................... 11.1 Fundamentals ..................................................................................................................... 11.2 Terminology ......................................................................................................................... 4

Type of Follower Motion ............................................................................................... 4Type of Joint Closure .................................................................................................... 4Type of Follower ............................................................................................................ 5Type of Cam .................................................................................................................. 6Type of Motion Constraints .......................................................................................... 8Type of Motion Program ............................................................................................... 8

1.3 Applications ........................................................................................................................ 91.4 Timing Diagrams ............................................................................................................... 101.5 Cam Design Software ..................................................................................................... 101.6 Units .................................................................................................................................... 101.7 References ........................................................................................................................ 16

Chapter 2 Unacceptable Cam Curves ............................................................. 172.0 Introduction ...................................................................................................................... 172.1 S V A J Diagrams ............................................................................................................. 172.2 Double-Dwell Cam DesignChoosing S V A J Functions ........................................ 192.3 The Fundamental Law of Cam Design ........................................................................ 222.4 Simple Harmonic Motion (SHM) ..................................................................................... 222.5 Constant Acceleration (Parabolic Displacement) .................................................... 252.6 Cubic Displacement ....................................................................................................... 252.7 Summary ............................................................................................................................ 262.8 References ........................................................................................................................ 26

Chapter 3 Double-Dwell Cam Curves ............................................................... 273.0 Introduction ...................................................................................................................... 273.1 Cycloidal Displacement for Double Dwells ................................................................ 273.2 Combined Functions for Double Dwells ...................................................................... 30

Fall Functions ............................................................................................................... 413.3 The SCCA Family of Double-Dwell Functions .............................................................. 413.4 Polynomial Functions ....................................................................................................... 45

The 3-4-5 Polynomial ................................................................................................... 46The 4-5-6-7 Polynomial ............................................................................................ 49

3.5 Fourier Series Functions ................................................................................................... 523.6 Summary ........................................................................................................................ 563.7 References ........................................................................................................................ 56

Chapter 4 Single-Dwell Cam Curves ................................................................. 574.0 Introduction ...................................................................................................................... 574.1 Single-Dwell Cam DesignChoosing S V A J Functions ........................................... 574.2 Single-Dwell Applications of Polynomials .................................................................... 61

Effect of Asymmetry on the Rise-Fall Polynomial Solution ....................................... 634.3 Summary ........................................................................................................................ 68

VII

Chapter 5 Spline Functions .................................................................................. 695.0 Introduction ...................................................................................................................... 695.1 Classical Splines ............................................................................................................... 70

Knots ............................................................................................................................. 70Smoothness Equations ................................................................................................ 71Interpolation Equations .............................................................................................. 72Boundary Conditions .................................................................................................. 72

5.2 General Polynomial Splines ........................................................................................... 815.3 B-splines ............................................................................................................................. 865.4 Bezier Curves .................................................................................................................... 975.5 Knot Placement ............................................................................................................. 1055.6 Periodic Splines .............................................................................................................. 1155.7 Splines Other Than Polynomial Splines ...................................................................... 119

Trigonometric Splines ................................................................................................ 119Rational Splines ...................................................................................................... 122

5.8 Summary .......................................................................................................................... 1235.9 Bibliography .................................................................................................................... 124

Chapter 6 Critical Path Motion (CPM) Cam Curves ......................................1276.0 Introduction .................................................................................................................... 1276.1 Constant Velocity Motion ............................................................................................ 127

Polynomials Used for Critical Path Motion .............................................................. 128Half-Period Harmonic Family Functions .................................................................. 135

6.2 Combined Displacement and Velocity Constraints ............................................... 1396.3 Summary .......................................................................................................................... 150

Chapter 7 Cam Size Determination .................................................................1517.0 Introduction .................................................................................................................... 1517.1 Pressure AngleRadial Cam with Translating Roller Follower ............................... 152

Eccentricity ................................................................................................................ 153Choosing a Prime Circle Radius .............................................................................. 156

7.2 Pressure AngleBarrel Cam With Translating Roller Follower ............................... 1577.3 Pressure AngleBarrel Cam With Oscillating Roller Follower ............................... 1597.4 Overturning MomentRadial Cam With Translating Flat-Faced Follower ........ 1617.5 Pressure AngleRadial Cam With Oscillating Roller Follower .............................. 1627.6 Radius of CurvatureRadial Cam With Translating Roller Follower .................... 1657.7 Radius of CurvatureRadial Cam With Translating Flat-Faced Follower .......... 1697.8 Radius of CurvatureBarrel Cam With Translating Roller Follower ..................... 1737.9 Radius of CurvatureBarrel Cam With Oscillating Roller Follower ...................... 173

7.10 Radius of CurvatureRadial Cam With Oscillating Roller Follower .................... 1747.11 Radius of CurvatureRadial Cam With Oscillating Flat-Faced Follower ........... 174

Undercutting of Radial Cams with Oscillating Flat-Faced Followers ................... 1757.12 References ...................................................................................................................... 176

Chapter 8 Dynamics of Cam SystemsModeling Fundamentals ..............1778.0 Introduction .................................................................................................................... 1778.1 Newtons Laws of Motion ............................................................................................. 1778.2 Dynamic Models ............................................................................................................ 1788.3 Mass .................................................................................................................................. 1788.4 Mass Moment and Center of Gravity ........................................................................ 1798.5 Mass Moment of Inertia (Second Moment of Mass) ............................................. 1818.6 Parallel Axis Theorem (Transfer Theorem) ................................................................. 1828.7 Radius of Gyration ......................................................................................................... 1838.8 Modeling Rotating Links ............................................................................................... 1848.9 Lumped Parameter Dynamic Models ....................................................................... 185

Spring Rate ................................................................................................................ 185Damping .................................................................................................................... 185

THE CAM DESIGN AND MANUFACTURING HANDBOOKVIII

8.10 Equivalent Systems ........................................................................................................ 188Combining Dampers ................................................................................................ 190Combining Springs .................................................................................................... 191Combining Masses .................................................................................................... 192Lever and Gear Ratios ............................................................................................. 192

8.11 Modeling Nonlinear Springs ......................................................................................... 197Determining the Effective Spring Rate of an Air Cylinder ..................................... 201

8.12 Modeling an Industrial Cam-Follower System .......................................................... 2068.13 References ...................................................................................................................... 212

Chapter 9 Dynamics of Cam SystemsForce, Torque, Vibration ...............2139.0 Introduction .................................................................................................................... 2139.1 Dynamic Force Analysis of the Force-Closed Cam-Follower ................................ 213

Undamped Response ............................................................................................... 215Damped Response ................................................................................................... 217

9.2 Resonance ...................................................................................................................... 224Follower Rise Time ..................................................................................................... 226

9.3 Estimating Damping ...................................................................................................... 227Logarithmic Decrement ........................................................................................... 227

9.4 Kinetostatic Force Analysis of the Force-Closed Cam-Follower ........................... 2339.5 Kinetostatic Force Analysis of the Form-Closed Cam-Follower ............................. 2389.6 Kinetostatic Camshaft Torque ..................................................................................... 2419.7 Controlling Cam SpeedMotors ................................................................................ 246

Electric Motors ........................................................................................................... 2469.8 Controlling Cam SpeedFlywheels .......................................................................... 2519.9 Torque Compensation Cams ...................................................................................... 258

9.10 References ...................................................................................................................... 262

Chapter 10 Modeling Cam-Follower Systems ................................................26310.0 Introduction .................................................................................................................... 26310.1 Degrees of Freedom ..................................................................................................... 26410.2 Single-Mass SDOF Linear Dynamic Models ............................................................... 265

Force-Closed Models ................................................................................................ 266Form-Closed Model .................................................................................................. 268

10.3 Two-Mass, One- or Two-DOF, Nonlinear Dynamic Model of a Valve Train ........ 26910.4 Multi-DOF Dynamic Model of a Valve Train ............................................................. 27210.5 One-Mass Model of an Industrial Cam-Follower System ........................................ 27310.6 Two-Mass Model of an Industrial Cam-Follower System ......................................... 27910.7 Solving System Differential Equations ......................................................................... 282

Block Diagram SolutionSimulink/MatLab ............................................................ 282Ordinary Differential Equation SolutionUsing Mathcad ..................................... 284State Space Solutions ............................................................................................... 286

10.8 Polydyne Cam Functions ............................................................................................. 291Double-Dwell Polydyne Curves ............................................................................... 299

10.9 Splinedyne Cam Functions .......................................................................................... 30710.10 References ...................................................................................................................... 312

Chapter 11 Residual Vibrations in Cam-Follower Systems ..........................31511.0 Introduction .................................................................................................................... 31511.1 Residual Vibration .......................................................................................................... 31511.2 Residual Vibration of Double-Dwell Functions ......................................................... 31611.3 Double-Dwell Functions for Low Residual Vibration ............................................... 319

Freudenstein 1-3 Fourier Series (Harmonic) Function ............................................. 321Gutman F-3 Fourier Series (Harmonic) Function .................................................... 321Berzak-Freudenstein Polynomials ............................................................................ 322Residual Vibration Spectra for "Low Vibration" Functions ..................................... 325Actual Cam Performance Compared to Theoretical Performance ................... 331

11.4 References ...................................................................................................................... 333

CONTENTS IX

Chapter 12 Failure of Cam SystemsStress, Wear, Corrosion .....................33512.0 Introduction .................................................................................................................... 33512.1 Surface Geometry ......................................................................................................... 33712.2 Mating Surfaces ............................................................................................................. 33812.3 Adhesive Wear ............................................................................................................... 34012.4 Abrasive Wear ................................................................................................................ 342

Abrasion-Resistant Materials .................................................................................... 34212.5 Corrosion Wear ............................................................................................................... 342

Corrosion Fatigue ...................................................................................................... 343Fretting Corrosion ...................................................................................................... 344

12.6 Stress ................................................................................................................................. 34512.7 Strain ................................................................................................................................. 34712.8 Principal Stresses ............................................................................................................ 34712.9 Plane Stress and Plane Strain ....................................................................................... 350

Plane Stress ................................................................................................................ 350Plane Strain ................................................................................................................ 350

12.10 Applied Versus Principal Stresses ................................................................................ 35112.11 Surface Fatigue .............................................................................................................. 35212.12 Spherical Contact ......................................................................................................... 354

Contact Pressure and Contact Patch in Spherical Contact ............................... 355Static Stress Distributions in Spherical Contact ....................................................... 356

12.13 Cylindrical Contact ....................................................................................................... 358Contact Pressure and Contact Patch in Parallel Cylindrical Contact ................ 359Static Stress Distributions in Parallel Cylindrical Contact ....................................... 360

12.14 General Contact ........................................................................................................... 363Contact Pressure and Contact Patch in General Contact ................................. 363Stress Distributions in General Contact ................................................................... 364

12.15 Dynamic Contact Stresses ........................................................................................... 368Effect of a Sliding Component on Contact Stresses ............................................. 368

12.16 Surface Fatigue Failure ModelsDynamic Contact ............................................... 37612.17 Surface Fatigue Strength .............................................................................................. 37912.18 Roller Followers ............................................................................................................... 386

Types of Rolling-Element Bearings ........................................................................... 38712.19 Failure of Rolling-Element bearings ............................................................................ 38712.20 Selection of Rolling-Element Bearings ........................................................................ 388

Basic Dynamic Load Rating C ................................................................................. 388Basic Static Load Rating C0 .................................................................................................................................................... 390Calculation Procedures ........................................................................................... 390

12.21 References ...................................................................................................................... 391

Chapter 13 Cam Profile Determination ...........................................................39313.0 Introduction .................................................................................................................... 393

Inversion ..................................................................................................................... 394Digitization Increment ............................................................................................... 394

13.1 Radial Cams With Roller Followers .............................................................................. 395Offset Translating Roller Follower ............................................................................. 395Oscillating Roller Follower ......................................................................................... 399

13.2 Radial Cams With Flat-Faced Followers .................................................................... 402Radial Cams with Translating Flat-Faced Followers ............................................... 403Radial Cams with Oscillating Flat-Faced Followers ............................................... 405

13.3 Barrel Cams With Roller Followers ............................................................................... 407Barrel Cam With Translating Roller Follower ............................................................ 407Barrel Cam With Oscillating Roller Follower ............................................................ 409

13.4 Linear Cams With Roller Followers ............................................................................... 41213.5 Conjugate Cams ........................................................................................................... 413

Designing Conjugate Cams .................................................................................... 415Conjugate Radial Cams With Translating Followers .............................................. 415Conjugate Radial Cams With Oscillating Followers .............................................. 416Conjugate Axial Ribbed Cams With Oscillating Followers .................................... 417Indexing Cams .......................................................................................................... 418

13.6 Cam-Linkage Combinations ....................................................................................... 419Modifying the Cam Contour for Follower Linkage Geometry .............................. 421

THE CAM DESIGN AND MANUFACTURING HANDBOOKX

13.7 Shifting the Cam Contour to Machine Zero ............................................................. 42113.8 References ...................................................................................................................... 422

Chapter 14 Cam Materials and Manufacturing .............................................42314.0 Introduction .................................................................................................................... 42314.1 Cam Materials ................................................................................................................ 424

Cast Irons ................................................................................................................... 424Wrought Steels ........................................................................................................... 425Forged Steel .............................................................................................................. 425Sintered Metals .......................................................................................................... 426Steel Numbering Systems ......................................................................................... 426

14.2 Hardness .......................................................................................................................... 42814.3 Heat Treatment .............................................................................................................. 429

Surface (Case) Hardening ....................................................................................... 43114.4 Cam Manufacturing Methods ..................................................................................... 432

Geometric Generation ............................................................................................ 432Manual or NC Machining to Cam Coordinates (Plunge-Cutting) ...................... 433Continuous Numerical Control with Linear Interpolation ...................................... 434Continuous Numerical Control with Circular Interpolation ................................... 437Analog Duplication ................................................................................................... 438

14.5 Cutting the Cam ............................................................................................................ 440Interpolation Method ............................................................................................... 442Digitization Increment ............................................................................................... 442Resampling the Data ................................................................................................ 443Pythagorean Hodographs ....................................................................................... 444

14.6 Manufacturing Methods .............................................................................................. 447Finishing Processes .................................................................................................... 447Polishing Processes .................................................................................................... 448

14.7 Surface Coatings ........................................................................................................... 44814.8 Measuring the Cam ...................................................................................................... 44914.9 References ...................................................................................................................... 449

14.10 Bibliography .................................................................................................................... 450

Chapter 15 Lubrication of Cam Systems .........................................................45115.0 Introduction .................................................................................................................... 45115.1 Lubricants ........................................................................................................................ 45315.2 Viscosity ........................................................................................................................... 45415.3 Types of Lubrication ...................................................................................................... 455

Full-Film Lubrication ................................................................................................... 457Boundary Lubrication ............................................................................................... 460

15.4 Material Combinations in Cam-Follower Joints ....................................................... 46015.5 Hydrodynamic Lubrication Theory ............................................................................. 461

Petroffs Equation for No-Load Torque ................................................................... 461Reynolds Equation for Eccentric Journal Bearings ............................................... 462

15.6 Nonconforming Contacts ............................................................................................ 46515.7 Cam Lubrication ............................................................................................................ 47215.8 References ...................................................................................................................... 473

Chapter 16 Measuring Cam-Follower Performance .....................................47516.0 Introduction .................................................................................................................... 47516.1 Transducers ..................................................................................................................... 475

Angular Position Transducers ................................................................................... 476Displacement Transducers ....................................................................................... 477Velocity Transducers ................................................................................................. 479Strain Transducers ..................................................................................................... 479Force Transducers ..................................................................................................... 479Acceleration Transducers ........................................................................................ 481Vibration Measurement ........................................................................................... 482

16.2 Experimental Cam-Follower Measurements ............................................................. 48316.3 Data Analysis .................................................................................................................. 484

CONTENTS XI

Analog to Digital Conversion ................................................................................... 484Spectrum Analysis ..................................................................................................... 486Forms of Spectra ....................................................................................................... 489Modal Domain .......................................................................................................... 491Frequency Response Functions (FRF) ...................................................................... 491Dynamic Signal Analyzers ........................................................................................ 492Measuring the FRF ..................................................................................................... 492The "Q" of a System ................................................................................................... 494Convolution and Deconvolution ............................................................................ 495

16.4 References ...................................................................................................................... 49816.5 Bibliography .................................................................................................................... 498

Chapter 17 Case Studies ...................................................................................49917.0 Introduction .................................................................................................................... 49917.1 Analyzing Vibrations in an IC Engine Valve Train ..................................................... 499

Conclusions ............................................................................................................... 51017.2 Analyzing Vibrations in Cam-Driven Automated Assembly Machinery ............. 511

Conclusions ............................................................................................................... 51917.3 References ...................................................................................................................... 520

Chapter 18 Cam Design Guidelines ................................................................52118.0 Introduction .................................................................................................................... 52118.1 Practical Design Considerations ................................................................................ 521

Translating or Oscillating Follower? ......................................................................... 521Force or Form-Closed? ............................................................................................. 522Radial or Barrel Cam? .............................................................................................. 523Roller or Flat-Faced Follower? .................................................................................. 523To Dwell or Not to Dwell? ......................................................................................... 525To Grind or Not to Grind? ......................................................................................... 525To Lubricate or Not to Lubricate? ........................................................................... 526What Double-Dwell Cam Program to Use? ........................................................... 527What Cam Program to Use For Difficult or Complicated Motions? ..................... 527To Polydyne or Not to Polydyne? ............................................................................ 527Camshaft Design ...................................................................................................... 528Follower Train Design ................................................................................................ 528Follower Train Dynamics ........................................................................................... 528Natural Frequencies ................................................................................................. 529Backlash ..................................................................................................................... 529How Important is Theoretical Peak Acceleration? ................................................ 529

18.2 Rules of Thumb for Cam Design .................................................................................. 53018.3 References ...................................................................................................................... 532

Appendix A Computer Programs .....................................................................533A.0 Introduction .................................................................................................................... 533A.1 General information ...................................................................................................... 533

Hardware Requirements .......................................................................................... 533Operating System Requirements ............................................................................. 533Demonstration Versions ............................................................................................ 533Installing the Software .............................................................................................. 534How to Use This Manual ............................................................................................ 534

A.2 General Program Operation ....................................................................................... 534Running the Programs (All Programs) .................................................................... 534The Home Screen (All Programs) ............................................................................ 534General User Actions Possible Within a Program (All Programs) ......................... 535Units (All Programs) .................................................................................................. 535Examples (All Programs) .......................................................................................... 535Creating New, Saving, and Opening Files (File - All Programs) ............................ 535Copying Screens to Clipboard or Printer (Copy - All Programs) .......................... 536Printing to Screen, Printer, and Exporting Disk Files (Print Button) ......................... 536Plotting Data (Plot Button) ....................................................................................... 537The About Menu (All Programs) ............................................................................. 541

THE CAM DESIGN AND MANUFACTURING HANDBOOKXII

Exiting a Program (All Programs) ............................................................................ 541Support (All Programs) ............................................................................................. 541

A.3 Program DYNACAM ......................................................................................................... 541The DYNACAM Home Screen ....................................................................................... 541Input Data (DYNACAM Input Screen) ......................................................................... 541Polynomial Functions ................................................................................................ 544Spline Functions ......................................................................................................... 545Back to the Input Screen ......................................................................................... 546Continuity Check Screen ......................................................................................... 546Sizing the Cam .......................................................................................................... 546Drawing the Cam ..................................................................................................... 547Exporting Cam Contour Data (DYNACAM Only) ....................................................... 549Kinetostatic Analysis (DYNACAM Only) ....................................................................... 549Dynamic Analysis (DYNACAM Only) ............................................................................ 550Stress Analysis (DYNACAM Only) .................................................................................. 552Fourier Transform (FFT) ............................................................................................... 553Other .......................................................................................................................... 554

A.4 Program FOURBAR ............................................................................................................ 554The FOURBAR Home Screen ......................................................................................... 554Input Data (FOURBAR Input Screen) ........................................................................... 554Calculation (FOURBAR, FIVEBAR, Sixbar, and SLIDER Input Screens) ............................. 555Animation (FOURBAR) ................................................................................................... 557Dynamics (FOURBAR, FIVEBAR, SIXBAR, and SLIDER Dynamics Screen) ............................ 558Balancing (FOURBAR Only) ......................................................................................... 561Cognates (FOURBAR Only) ...................................................................................... 561Synthesis (FOURBAR Only) ............................................................................................ 562Other .......................................................................................................................... 562

A.5 Program SIXBAR ................................................................................................................ 562The SIXBAR Home Screen ............................................................................................ 562Input Data (SIXBAR Input Screen) ............................................................................... 564Animation (SIXBAR) ...................................................................................................... 565Dynamics (SIXBAR Dynamics Screen) ........................................................................ 565Other .......................................................................................................................... 565

A.6 Program SLIDER ................................................................................................................ 565The SLIDER Home Screen ............................................................................................ 565Input Data (SLIDER Input Screen) ............................................................................... 565Calculation (SLIDER Input Screen) ............................................................................. 566Animation (SLIDER Animation Screen) ....................................................................... 566Dynamics (SLIDER Dynamics Screen) ........................................................................ 566Other .......................................................................................................................... 567

Appendix B Material Properties ........................................................................569

Appendix C Geometric Properties ...................................................................573

Appendix D Spring Data ....................................................................................575

Bibliography ...........................................................................................................579

Glossary of Terms ...................................................................................................599

Index ........................................................................................................................601

Index to CD-ROM ...................................................................................................609

Installation Instructions for CD-ROM ...................................................................610

ContentsChapter 1 Introduction 1.0 Cam-Follower Systems 1.1 Fundamentals 1.2 Terminology Type of Follower Motion Type of Joint Closure Type of Follower Type of Cam Type of Motion Constraints Type of Motion Program 1.3 Applications 1.4 Timing Diagrams 1.5 Cam Design Software 1.6 Units 1.7 References Chapter 2 Unacceptable Cam Curves 2.0 Introduction 2.1 S V A J Diagrams 2.2 Double-Dwell Cam DesignChoosing S V A J Functions 2.3 The Fundamental Law of Cam Design 2.4 Simple Harmonic Motion (SHM) 2.5 Constant Acceleration (Parabolic Displacement) 2.6 Cubic Displacement 2.7 Summary 2.8 References Chapter 3 Double-Dwell Cam Curves 3.0 Introduction 3.1 Cycloidal Displacement for Double Dwells 3.2 Combined Functions for Double Dwells Fall Functions 3.3 The SCCA Family of Double-Dwell Functions 3.4 Polynomial Functions The 3-4-5 Polynomial The 4-5-6-7 Polynomial 3.5 Fourier Series Functions 3.6 Summary 3.7 References Chapter 4 Single-Dwell Cam Curves 4.0 Introduction 4.1 Single-Dwell Cam DesignChoosing S V A J Functions 4.2 Single-Dwell Applications of Polynomials Effect of Asymmetry on the Rise-Fall Polynomial Solution 4.3 Summary Chapter 5 Spline Functions 5.0 Introduction 5.1 Classical Splines Knots Smoothness Equations Interpolation Equations Boundary Conditions 5.2 General Polynomial Splines 5.3 B-splines 5.4 Bezier Curves 5.5 Knot Placement 5.6 Periodic Splines 5.7 Splines Other Than Polynomial Splines Trigonometric Splines Rational Splines 5.8 Summary 5.9 Bibliography Chapter 6 Critical Path Motion (CPM) Cam Curves 6.0 Introduction 6.1 Constant Velocity Motion Polynomials Used for Critical Path Motion Half-Period Harmonic Family Functions 6.2 Combined Displacement and Velocity Constraints 6.3 Summary Chapter 7 Cam Size Determination 7.0 Introduction 7.1 Pressure AngleRadial Cam with Translating Roller Follower Eccentricity Choosing a Prime Circle Radius 7.2 Pressure AngleBarrel Cam With Translating Roller Follower 7.3 Pressure AngleBarrel Cam With Oscillating Roller Follower 7.4 Overturning MomentRadial Cam With Translating Flat-Faced Follower 7.5 Pressure AngleRadial Cam With Oscillating Roller Follower 7.6 Radius of CurvatureRadial Cam With Translating Roller Follower 7.7 Radius of CurvatureRadial Cam With Translating Flat-Faced Follower 7.8 Radius of CurvatureBarrel Cam With Translating Roller Follower 7.9 Radius of CurvatureBarrel Cam With Oscillating Roller Follower 7.10 Radius of CurvatureRadial Cam With Oscillating Roller Follower 7.11 Radius of CurvatureRadial Cam With Oscillating Flat-Faced Follower Undercutting of Radial Cams with Oscillating Flat-Faced Followers 7.12 References Chapter 8 Dynamics of Cam SystemsModeling Fundamentals 8.0 Introduction 8.1 Newtons Laws of Motion 8.2 Dynamic Models 8.3 Mass 8.4 Mass Moment and Center of Gravity 8.5 Mass Moment of Inertia (Second Moment of Mass) 8.6 Parallel Axis Theorem (Transfer Theorem) 8.7 Radius of Gyration 8.8 Modeling Rotating Links 8.9 Lumped Parameter Dynamic Models Spring Rate Damping 8.10 Equivalent Systems Combining Dampers Combining Springs Combining Masses Lever and Gear Ratios 8.11 Modeling Nonlinear Springs Determining the Effective Spring Rate of an Air Cylinder 8.12 Modeling an Industrial Cam-Follower System 8.13 References Chapter 9 Dynamics of Cam SystemsForce, Torque, Vibration 9.0 Introduction 9.1 Dynamic Force Analysis of the Force-Closed Cam-Follower Undamped Response Damped Response 9.2 Resonance Follower Rise Time 9.3 Estimating Damping Logarithmic Decrement 9.4 Kinetostatic Force Analysis of the Force-Closed Cam-Follower 9.5 Kinetostatic Force Analysis of the Form-Closed Cam-Follower 9.6 Kinetostatic Camshaft Torque 9.7 Controlling Cam SpeedMotors Electric Motors 9.8 Controlling Cam SpeedFlywheels 9.9 Torque Compensation Cams 9.10 References Chapter 10 Modeling Cam-Follower Systems 10.0 Introduction 10.1 Degrees of Freedom 10.2 Single-Mass SDOF Linear Dynamic Models Force-Closed Models Form-Closed Model 10.3 Two-Mass, One- or Two-DOF, Nonlinear Dynamic Model of a Valve Train 10.4 Multi-DOF Dynamic Model of a Valve Train 10.5 One-Mass Model of an Industrial Cam-Follower System 10.6 Two-Mass Model of an Industrial Cam-Follower System 10.7 Solving System Differential Equations Block Diagram SolutionSimulink/MatLab Ordinary Differential Equation SolutionUsing Mathcad State Space Solutions 10.8 Polydyne Cam Functions Double-Dwell Polydyne Curves 10.9 Splinedyne Cam Functions 10.10 References Chapter 11 Residual Vibrations in Cam-Follower Systems 11.0 Introduction 11.1 Residual Vibration 11.2 Residual Vibration of Double-Dwell Functions 11.3 Double-Dwell Functions for Low Residual Vibration Freudenstein 1-3 Fourier Series (Harmonic) Function Gutman F-3 Fourier Series (Harmonic) Function Berzak-Freudenstein Polynomials Residual Vibration Spectra for "Low Vibration" Functions Actual Cam Performance Compared to Theoretical Performance 11.4 References Chapter 12 Failure of Cam SystemsStress, Wear, Corrosion 12.0 Introduction 12.1 Surface Geometry 12.2 Mating Surfaces 12.3 Adhesive Wear 12.4 Abrasive Wear Abrasion-Resistant Materials 12.5 Corrosion Wear Corrosion Fatigue Fretting Corrosion 12.6 Stress 12.7 Strain 12.8 Principal Stresses 12.9 Plane Stress and Plane Strain Plane Stress Plane Strain 12.10 Applied Versus Principal Stresses 12.11 Surface Fatigue 12.12 Spherical Contact Contact Pressure and Contact Patch in Spherical Contact Static Stress Distributions in Spherical Contact 12.13 Cylindrical Contact Contact Pressure and Contact Patch in Parallel Cylindrical Contact Static Stress Distributions in Parallel Cylindrical Contact 12.14 General Contact Contact Pressure and Contact Patch in General Contact Stress Distributions in General Contact 12.15 Dynamic Contact Stresses Effect of a Sliding Component on Contact Stresses 12.16 Surface Fatigue Failure ModelsDynamic Contact 12.17 Surface Fatigue Strength 12.18 Roller Followers Types of Rolling-Element Bearings 12.19 Failure of Rolling-Element bearings 12.20 Selection of Rolling-Element Bearings Basic Dynamic Load Rating C Basic Static Load Rating C0 Calculation Procedures 12.21 References Chapter 13 Cam Profile Determination 13.0 Introduction Inversion Digitization Increment 13.1 Radial Cams With Roller Followers Offset Translating Roller Follower Oscillating Roller Follower 13.2 Radial Cams With Flat-Faced Followers Radial Cams with Translating Flat-Faced Followers Radial Cams with Oscillating Flat-Faced Followers 13.3 Barrel Cams With Roller Followers Barrel Cam With Translating Roller Follower Barrel Cam With Oscillating Roller Follower 13.4 Linear Cams With Roller Followers 13.5 Conjugate Cams Designing Conjugate Cams Conjugate Radial Cams With Translating Followers Conjugate Radial Cams With Oscillating Followers Conjugate Axial Ribbed Cams With Oscillating Followers Indexing Cams 13.6 Cam-Linkage Combinations Modifying the Cam Contour for Follower Linkage Geometry 13.7 Shifting the Cam Contour to Machine Zero 13.8 References Chapter 14 Cam Materials and Manufacturing 14.0 Introduction 14.1 Cam Materials Cast Irons Wrought Steels Forged Steel Sintered Metals Steel Numbering Systems 14.2 Hardness 14.3 Heat Treatment Surface (Case) Hardening 14.4 Cam Manufacturing Methods Geometric Generation Manual or NC Machining to Cam Coordinates (Plunge-Cutting) Continuous Numerical Control with Linear Interpolation Continuous Numerical Control with Circular Interpolation Analog Duplication 14.5 Cutting the Cam Interpolation Method Digitization Increment Resampling the Data Pythagorean Hodographs 14.6 Manufacturing Methods Finishing Processes Polishing Processes 14.7 Surface Coatings 14.8 Measuring the Cam 14.9 References 14.10 Bibliography Chapter 15 Lubrication of Cam Systems 15.0 Introduction 15.1 Lubricants 15.2 Viscosity 15.3 Types of Lubrication Full-Film Lubrication Boundary Lubrication 15.4 Material Combinations in Cam-Follower Joints 15.5 Hydrodynamic Lubrication Theory Petroffs Equation for No-Load Torque Reynolds Equation for Eccentric Journal Bearings 15.6 Nonconforming Contacts 15.7 Cam Lubrication 15.8 References Chapter 16 Measuring Cam-Follower Performance 16.0 Introduction 16.1 Transducers Angular Position Transducers Displacement Transducers Velocity Transducers Strain Transducers Force Transducers Acceleration Transducers Vibration Measurement 16.2 Experimental Cam-Follower Measurements 16.3 Data Analysis Analog to Digital Conversion Spectrum Analysis Forms of Spectra Modal Domain Frequency Response Functions (FRF) Dynamic Signal Analyzers Measuring the FRF The "Q" of a System Convolution and Deconvolution 16.4 References 16.5 Bibliography Chapter 17 Case Studies 17.0 Introduction 17.1 Analyzing Vibrations in an IC Engine Valve Train Conclusions 17.2 Analyzing Vibrations in Cam-Driven Automated Assembly Machinery Conclusions 17.3 References Chapter 18 Cam Design Guidelines 18.0 Introduction 18.1 Practical Design Considerations Translating or Oscillating Follower? Force or Form-Closed? Radial or Barrel Cam? Roller or Flat-Faced Follower? To Dwell or Not to Dwell? To Grind or Not to Grind? To Lubricate or Not to Lubricate? What Double-Dwell Cam Program to Use? What Cam Program to Use For Difficult or Complicated Motions? To Polydyne or Not to Polydyne? Camshaft Design Follower Train Design Follower Train Dynamics Natural Frequencies Backlash How Important is Theoretical Peak Acceleration? 18.2 Rules of Thumb for Cam Design Appendix B Material Properties Appendix C Geometric Properties Appendix D Spring Data Glossary of Terms Index

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