Fundamentals of Machine Component Design

ISBN-10: 1118012895

ISBN-13: 9781118012895

Edition: 5th 2011

Authors: Robert C. Juvinall, Kurt M. Marshek

List price: $164.95 Buy it from $25.31
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The 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. #xA0;Revisions in the text include coverage of Fatique in addition to a continued concentration on the fundamentals of component design. #xA0;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 Fatique; expanded coverage of failure theory; and updated references.
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Book details

List price: $164.95
Edition: 5th
Copyright year: 2011
Publisher: John Wiley & Sons Canada, Limited
Publication date: 9/27/2011
Binding: Hardcover
Pages: 928
Size: 8.25" wide x 10.00" long x 1.25" tall
Weight: 4.092
Language: English

Fundamentals
Mechanical Engineering design in Broad Perspective
An Overview of the Subject
Safety Considerations
Ecological Considerations
Societal Considerations
Overall Design Considerations
Systems of Units
Methodology for Solving Machine Component Problems
Work and Energy
Power
Conservation of Energy
Load Analysis
Introduction
Equilibrium Equations and Free-Body Diagrams
Beam Loading
Locating Critical Sections-Force Flow Concept
Load Division Between Redundant Supports
Force Flow Concept Applied to Redundant Ductile Structures
Materials
Introduction
The Static Tensile Test-"Engineering" Stress-Strain Relationships
Implications of the "Engineering" Stress-Strain Curve
The Static Tensile Test-"True" Stress-Strain Relationships
Energy-Absorbing Capacity
Estimating Strength Properties from Penetration Hardness Tests
Use of "Handbook" Data for Material Strength Properties
Machinability
Cast Iron
Steel
Nonferrous Alloys
Plastics, and Composites
Material Selection Charts
Engineering Material Selection Process
Static Body Stresses
Introduction
Axial Loading
Direct Shear Loading
Torsional Loading
Pure Bending Loading, Straight Beams
Pure Bending Loading, Curved Beams
Transverse Shear Loading in Beams
Induced Stresses, Mohr Circle Representation
Combined Stresses-Mohr Circle Representation
Stress Equations Related to Mohr's Circle
Three-Dimensional Stresses
Stress Concentration Factor, Kt
Importance of Stress Concentration
Residual Stresses Caused by Yielding-Axial Loading
Residual Stresses Caused by Yielding-Bending and Torsional Loading
Thermal Stresses
Importance of Residual Stresses
Elastic strain, Deflection, and Stability
Introduction
Strain Definition, Measurement, and Mohr Circle Representation
Analysis of Strain-Equiangular Rosettes
Analysis of Strain-Rectangular Rosettes
Elastic Stress-Strain Relationships and Three-Dimensional Mohr Circles
Deflection and Spring Rate-Simple Cases
Beam Deflection
Determining Elastic Deflections by Castigliano's Method
Redundant Reactions by Castigliano's Method
Euler Column Buckling-Elastic Instability
Effective Column Length for Various End Conditions
Column Design Equations-J. B. Johnson Parabola
Eccentric Column Loading-the Secant Formula
Equivalent Column Stresses
Other Types of Buckling
Finite Element Analysis
Failure Theories, Safety Factors, and Reliability
Introduction
Types of Failure
Fracture Mechanics-Basic Concepts
Fracture Mechanics-Applications
The "Theory" of Static Failure Theories
Maximum-Normal-Stress Theory
Maximum-Shear-Stress Theory
Maximum-Distortion-Energy Theory (Maximum- Octahedral-Shear-Stress Theory
Modified Mohr Theory
Selection and Use of Failure Theories
Safety Factors-Concept and Definition
Safety Factors-Selection of a Numerical Value
Reliability
Normal Distributions
Interference Theory of Reliability Prediction
Impact
Introduction
Stress and Deflection Caused by Linear and Bending Impact
Stress and Deflection Caused by Torsional Impact
Effect of Stress Raisers on Impact Strength
Fatigue
Introduction
Basic Concepts
Standard Fatigue Strengths ( ) for Rotating Bending
Fatigue Strengths for Reversed Bending and Reversed Axial Loading
Fatigue Strength for Reversed Torsional Loading
Fatigue Strength for Reversed Biaxial Loading
Influence of Surface and Size on Fatigue Strength
Summary of Estimated Fatigue Strengths for Completely Reversed Loading
Effect of Mean Stress on Fatigue Strength
Effect of Stress Concentration with Completely Reversed Fatigue Loading
Effect of Stress Concentration with Mean Plus Alternating Loads
Fatigue Life Prediction with Randomly Varying Loads
Effect of Surface Treatments on the Fatigue Strength of a Part
Mechanical Surface Treatments-Shot Peening and Others
Thermal and Chemical Surface-Hardening Treatments (Induction Hardening, Carburizing, and Others)
Fatigue Crack Growth
General Approach for Fatigue Design
Surface Damage
Introduction
Corrosion: Fundamentals
Corrosion: Electrode and Electrolyte Heterogeneity
Design for Corrosion Control
Corrosion Plus Static Stress
Corrosion Plus Cyclic Stress
Cavitation Damage
Types of Wear
Adhesive Wear
Abrasive Wear
Fretting
Analytical Approach to Wear
Curved-Surface Contact Stresses
Surface Fatigue Failures
Closure
Applications
Threaded Fasteners and Power Screws
Introduction
Thread Forms, Terminology, and Standards
Power Screws
Static Screw Stresses
Threaded Fastener Types
Fastener Materials and Methods of Manufacture
Bolt Tightening and Initial Tension
Thread Loosening and Thread Locking
Bolt Tension with External Joint-Separating Force
Bolt (or Screw) Selection for Static Loading
Bolt (or Screw) Selection for Fatigue Loading: Fundamentals
Bolt (or Screw) Selection for Fatigue Loading: Using Special Test Data
Increasing Bolted-Joint Fatigue Strength
Rivets, Welding, and Bonding
Introduction
Rivets
Welding Processes
Welded Joints Subjected to Static Axial and Direct Shear Loading
Welded Joints Subjected to Static Torsional and Bending Loading
Fatigue Considerations in Welded Joints
Brazing and Soldering
Adhesives
Springs
Introduction
Torsion Bar Springs
Coil Spring Stress and Deflection Equations
Stress and Strength Analysis for Helical Compression Springs-Static Loading
End Designs of Helical Compression Springs
Buckling Analysis of Helical Compression Springs
Design Procedure for Helical Compression Springs-Static Loading
Design of Helical Compression Springs for Fatigue Loading
Helical Extension Springs
Beam Springs (Including Leaf Springs)
Torsion Springs
Miscellaneous Springs
Lubrication and Sliding Bearings
Types of Lubricants
Types of Sliding Bearings
Types of Lubrication
Basic Concepts of Hydrodynamic Lubrication
Viscosity
Temperature and Pressure Effects on Viscosity
Petroff's Equation for Bearing Friction
Hydrodynamic Lubrication Theory
Design Charts for Hydrodynamic Bearings
Lubricant Supply
Heat Dissipation, and Equilibrium Oil Film Temperature
Bearing Materials
Hydrodynamic Bearing Design
Boundary and Mixed-Film Lubrication
Thrust Bearings
Elastohydrodynamic Lubrication
Rolling-Element Bearings
Comparison of Alternative Means for Supporting Rotating Shafts
History of Rolling-Element Bearings
Rolling-Element Bearing Types
Design of Rolling-Element Bearings
Fitting of Rolling-Element Bearings
"Catalogue Information" for Rolling-Element Bearings
Bearing Selection
Mounting Bearings to Provide Properly for Thrust Load
Spur Gears
Introduction and History
Geometry and Nomenclature
Interference and Contact Ratio
Gear Force Analysis
Gear-Tooth Strength
Basic Analysis of Gear-Tooth-Bending Stress (Lewis Equation)
Refined Analysis of Gear-Tooth-Bending Strength: Basic Concepts
Refined Analysis of Gear-Tooth-Bending Strength: Recommended Procedure
Gear-Tooth Surface Durability-Basic Concepts
Gear-Tooth Surface Fatigue Analysis-Recommended Procedure
Spur Gear Design Procedures
Gear Materials
Gear Trains
Helical, Bevel, and Worm Gears
Introduction
Helical-Gear Geometry and Nomenclature
Helical-Gear Force Analysis
Helical-Gear-Tooth-Bending and Surface Fatigue Strengths
Crossed Helical Gears
Bevel Gear Geometry and Nomenclature
Bevel Gear Force Analysis
Bevel-Gear-Tooth-Bending and Surface Fatigue Strengths
Bevel Gear Trains; Differential Gears
Worm Gear Geometry and Nomenclature
Worm Gear Force and Efficiency Analysis
Worm-Gear-Bending and Surface Fatigue Strengths
Worm Gear Thermal Capacity
Shafts and Associated Parts
Introduction
Provision for Shaft Bearings
Mounting Parts onto Rotating Shafts
Rotating-Shaft Dynamics
Overall Shaft Design
Keys, Pins, and Splines
Couplings and Universal Joints
Clutches and Brakes
Introduction
Disk Clutches
Disk Brakes
Energy Absorption and Cooling
Cone Clutches and Brakes
Short-Shoe Drum Brakes
Eternal Long-Shoe Drum Brakes
Internal Long-Shoe Drum Brakes
Band Brakes
Miscellaneous Machine Components
Introduction
Flat Belts
V-Belts
Toothed Belts
Roller Chains
Inverted-Tooth Chains
History of Hydrodynamic Drives
Fluid Couplings
Hydrodynamic Torque Converters
Machine Component Interrelationships (ONLINE ONLY)
Units
Conversion Factors for British Gravitational, English, and SI Units
Conversion Factor Equalities Listed by Physical Quantity
Standard SI Prefixes
SI Units and Symbols
Suggested SI Prefixes for Stress Calculations
Suggested SI Prefixes for Linear-Deflection Calculations
Suggested SI Prefixes for Angular-Deflection Calculations
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*A minimum purchase of $35 is required. Shipping is provided via FedEx SmartPost® and FedEx Express Saver®. Average delivery time is 1 – 5 business days, but is not guaranteed in that timeframe. Also allow 1 - 2 days for processing. Free shipping is eligible only in the continental United States and excludes Hawaii, Alaska and Puerto Rico. FedEx service marks used by permission."Marketplace" orders are not eligible for free or discounted shipping.

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