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| Fundamentals | |
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| Mechanical Engineering design in Broad Perspective | |
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| An Overview of the Subject | |
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| Safety Considerations | |
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| Ecological Considerations | |
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| Societal Considerations | |
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| Overall Design Considerations | |
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| Systems of Units | |
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| Methodology for Solving Machine Component Problems | |
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| Work and Energy | |
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| Power | |
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| Conservation of Energy | |
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| Load Analysis | |
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| Introduction | |
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| Equilibrium Equations and Free-Body Diagrams | |
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| Beam Loading | |
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| Locating Critical Sections-Force Flow Concept | |
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| Load Division Between Redundant Supports | |
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| Force Flow Concept Applied to Redundant Ductile Structures | |
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| Materials | |
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| Introduction | |
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| The Static Tensile Test-"Engineering" Stress-Strain Relationships | |
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| Implications of the "Engineering" Stress-Strain Curve | |
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| The Static Tensile Test-"True" Stress-Strain Relationships | |
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| Energy-Absorbing Capacity | |
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| Estimating Strength Properties from Penetration Hardness Tests | |
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| Use of "Handbook" Data for Material Strength Properties | |
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| Machinability | |
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| Cast Iron | |
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| Steel | |
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| Nonferrous Alloys | |
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| Plastics, and Composites | |
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| Material Selection Charts | |
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| Engineering Material Selection Process | |
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| Static Body Stresses | |
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| Introduction | |
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| Axial Loading | |
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| Direct Shear Loading | |
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| Torsional Loading | |
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| Pure Bending Loading, Straight Beams | |
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| Pure Bending Loading, Curved Beams | |
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| Transverse Shear Loading in Beams | |
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| Induced Stresses, Mohr Circle Representation | |
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| Combined Stresses-Mohr Circle Representation | |
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| Stress Equations Related to Mohr's Circle | |
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| Three-Dimensional Stresses | |
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| Stress Concentration Factor, Kt | |
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| Importance of Stress Concentration | |
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| Residual Stresses Caused by Yielding-Axial Loading | |
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| Residual Stresses Caused by Yielding-Bending and Torsional Loading | |
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| Thermal Stresses | |
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| Importance of Residual Stresses | |
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| Elastic strain, Deflection, and Stability | |
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| Introduction | |
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| Strain Definition, Measurement, and Mohr Circle Representation | |
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| Analysis of Strain-Equiangular Rosettes | |
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| Analysis of Strain-Rectangular Rosettes | |
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| Elastic Stress-Strain Relationships and Three-Dimensional Mohr Circles | |
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| Deflection and Spring Rate-Simple Cases | |
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| Beam Deflection | |
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| Determining Elastic Deflections by Castigliano's Method | |
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| Redundant Reactions by Castigliano's Method | |
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| Euler Column Buckling-Elastic Instability | |
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| Effective Column Length for Various End Conditions | |
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| Column Design Equations-J. B. Johnson Parabola | |
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| Eccentric Column Loading-the Secant Formula | |
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| Equivalent Column Stresses | |
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| Other Types of Buckling | |
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| Finite Element Analysis | |
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| Failure Theories, Safety Factors, and Reliability | |
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| Introduction | |
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| Types of Failure | |
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| Fracture Mechanics-Basic Concepts | |
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| Fracture Mechanics-Applications | |
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| The "Theory" of Static Failure Theories | |
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| Maximum-Normal-Stress Theory | |
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| Maximum-Shear-Stress Theory | |
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| Maximum-Distortion-Energy Theory (Maximum- Octahedral-Shear-Stress Theory | |
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| Modified Mohr Theory | |
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| Selection and Use of Failure Theories | |
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| Safety Factors-Concept and Definition | |
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| Safety Factors-Selection of a Numerical Value | |
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| Reliability | |
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| Normal Distributions | |
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| Interference Theory of Reliability Prediction | |
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| Impact | |
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| Introduction | |
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| Stress and Deflection Caused by Linear and Bending Impact | |
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| Stress and Deflection Caused by Torsional Impact | |
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| Effect of Stress Raisers on Impact Strength | |
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| Fatigue | |
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| Introduction | |
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| Basic Concepts | |
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| Standard Fatigue Strengths ( ) for Rotating Bending | |
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| Fatigue Strengths for Reversed Bending and Reversed Axial Loading | |
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| Fatigue Strength for Reversed Torsional Loading | |
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| Fatigue Strength for Reversed Biaxial Loading | |
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| Influence of Surface and Size on Fatigue Strength | |
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| Summary of Estimated Fatigue Strengths for Completely Reversed Loading | |
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| Effect of Mean Stress on Fatigue Strength | |
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| Effect of Stress Concentration with Completely Reversed Fatigue Loading | |
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| Effect of Stress Concentration with Mean Plus Alternating Loads | |
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| Fatigue Life Prediction with Randomly Varying Loads | |
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| Effect of Surface Treatments on the Fatigue Strength of a Part | |
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| Mechanical Surface Treatments-Shot Peening and Others | |
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| Thermal and Chemical Surface-Hardening Treatments (Induction Hardening, Carburizing, and Others) | |
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| Fatigue Crack Growth | |
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| General Approach for Fatigue Design | |
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| Surface Damage | |
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| Introduction | |
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| Corrosion: Fundamentals | |
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| Corrosion: Electrode and Electrolyte Heterogeneity | |
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| Design for Corrosion Control | |
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| Corrosion Plus Static Stress | |
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| Corrosion Plus Cyclic Stress | |
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| Cavitation Damage | |
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| Types of Wear | |
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| Adhesive Wear | |
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| Abrasive Wear | |
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| Fretting | |
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| Analytical Approach to Wear | |
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| Curved-Surface Contact Stresses | |
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| Surface Fatigue Failures | |
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| Closure | |
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| Applications | |
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| Threaded Fasteners and Power Screws | |
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| Introduction | |
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| Thread Forms, Terminology, and Standards | |
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| Power Screws | |
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| Static Screw Stresses | |
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| Threaded Fastener Types | |
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| Fastener Materials and Methods of Manufacture | |
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| Bolt Tightening and Initial Tension | |
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| Thread Loosening and Thread Locking | |
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| Bolt Tension with External Joint-Separating Force | |
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| Bolt (or Screw) Selection for Static Loading | |
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| Bolt (or Screw) Selection for Fatigue Loading: Fundamentals | |
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| Bolt (or Screw) Selection for Fatigue Loading: Using Special Test Data | |
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| Increasing Bolted-Joint Fatigue Strength | |
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| Rivets, Welding, and Bonding | |
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| Introduction | |
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| Rivets | |
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| Welding Processes | |
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| Welded Joints Subjected to Static Axial and Direct Shear Loading | |
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| Welded Joints Subjected to Static Torsional and Bending Loading | |
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| Fatigue Considerations in Welded Joints | |
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| Brazing and Soldering | |
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| Adhesives | |
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| Springs | |
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| Introduction | |
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| Torsion Bar Springs | |
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| Coil Spring Stress and Deflection Equations | |
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| Stress and Strength Analysis for Helical Compression Springs-Static Loading | |
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| End Designs of Helical Compression Springs | |
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| Buckling Analysis of Helical Compression Springs | |
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| Design Procedure for Helical Compression Springs-Static Loading | |
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| Design of Helical Compression Springs for Fatigue Loading | |
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| Helical Extension Springs | |
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| Beam Springs (Including Leaf Springs) | |
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| Torsion Springs | |
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| Miscellaneous Springs | |
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| Lubrication and Sliding Bearings | |
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| Types of Lubricants | |
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| Types of Sliding Bearings | |
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| Types of Lubrication | |
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| Basic Concepts of Hydrodynamic Lubrication | |
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| Viscosity | |
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| Temperature and Pressure Effects on Viscosity | |
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| Petroff's Equation for Bearing Friction | |
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| Hydrodynamic Lubrication Theory | |
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| Design Charts for Hydrodynamic Bearings | |
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| Lubricant Supply | |
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| Heat Dissipation, and Equilibrium Oil Film Temperature | |
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| Bearing Materials | |
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| Hydrodynamic Bearing Design | |
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| Boundary and Mixed-Film Lubrication | |
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| Thrust Bearings | |
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| Elastohydrodynamic Lubrication | |
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| Rolling-Element Bearings | |
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| Comparison of Alternative Means for Supporting Rotating Shafts | |
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| History of Rolling-Element Bearings | |
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| Rolling-Element Bearing Types | |
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| Design of Rolling-Element Bearings | |
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| Fitting of Rolling-Element Bearings | |
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| "Catalogue Information" for Rolling-Element Bearings | |
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| Bearing Selection | |
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| Mounting Bearings to Provide Properly for Thrust Load | |
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| Spur Gears | |
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| Introduction and History | |
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| Geometry and Nomenclature | |
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| Interference and Contact Ratio | |
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| Gear Force Analysis | |
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| Gear-Tooth Strength | |
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| Basic Analysis of Gear-Tooth-Bending Stress (Lewis Equation) | |
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| Refined Analysis of Gear-Tooth-Bending Strength: Basic Concepts | |
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| Refined Analysis of Gear-Tooth-Bending Strength: Recommended Procedure | |
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| Gear-Tooth Surface Durability-Basic Concepts | |
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| Gear-Tooth Surface Fatigue Analysis-Recommended Procedure | |
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| Spur Gear Design Procedures | |
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| Gear Materials | |
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| Gear Trains | |
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| Helical, Bevel, and Worm Gears | |
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| Introduction | |
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| Helical-Gear Geometry and Nomenclature | |
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| Helical-Gear Force Analysis | |
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| Helical-Gear-Tooth-Bending and Surface Fatigue Strengths | |
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| Crossed Helical Gears | |
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| Bevel Gear Geometry and Nomenclature | |
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| Bevel Gear Force Analysis | |
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| Bevel-Gear-Tooth-Bending and Surface Fatigue Strengths | |
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| Bevel Gear Trains; Differential Gears | |
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| Worm Gear Geometry and Nomenclature | |
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| Worm Gear Force and Efficiency Analysis | |
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| Worm-Gear-Bending and Surface Fatigue Strengths | |
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| Worm Gear Thermal Capacity | |
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| Shafts and Associated Parts | |
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| Introduction | |
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| Provision for Shaft Bearings | |
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| Mounting Parts onto Rotating Shafts | |
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| Rotating-Shaft Dynamics | |
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| Overall Shaft Design | |
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| Keys, Pins, and Splines | |
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| Couplings and Universal Joints | |
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| Clutches and Brakes | |
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| Introduction | |
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| Disk Clutches | |
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| Disk Brakes | |
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| Energy Absorption and Cooling | |
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| Cone Clutches and Brakes | |
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| Short-Shoe Drum Brakes | |
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| Eternal Long-Shoe Drum Brakes | |
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| Internal Long-Shoe Drum Brakes | |
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| Band Brakes | |
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| Miscellaneous Machine Components | |
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| Introduction | |
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| Flat Belts | |
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| V-Belts | |
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| Toothed Belts | |
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| Roller Chains | |
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| Inverted-Tooth Chains | |
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| History of Hydrodynamic Drives | |
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| Fluid Couplings | |
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| Hydrodynamic Torque Converters | |
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| Machine Component Interrelationships (ONLINE ONLY) | |
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| Units | |
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| Conversion Factors for British Gravitational, English, and SI Units | |
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| Conversion Factor Equalities Listed by Physical Quantity | |
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| Standard SI Prefixes | |
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| SI Units and Symbols | |
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| Suggested SI Prefixes for Stress Calculations | |
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| Suggested SI Prefixes for Linear-Deflection Calculations | |
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| Suggested SI Prefixes for Angular-Deflection Calculations | |