Machine Component Design (Record no. 243)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 15505nam a2200241Ia 4500 |
| 001 - CONTROL NUMBER | |
| control field | 0000739 |
| 003 - CONTROL NUMBER IDENTIFIER | |
| control field | OSt |
| 005 - DATE AND TIME OF LATEST TRANSACTION | |
| control field | 20190306144455.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION | |
| fixed length control field | 170602s9999 xx 000 0 und d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9788126537976 |
| 028 ## - PUBLISHER NUMBER | |
| Qualifying information | 2016 |
| Source | Allied Informatics, Jaipur |
| 040 ## - CATALOGING SOURCE | |
| Language of cataloging | English |
| Original cataloging agency | BSDU |
| Transcribing agency | BSDU |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 621.815 |
| Item number | JUV |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Juvinall, Robert C, Marshek, Kurt M |
| 245 #0 - TITLE STATEMENT | |
| Title | Machine Component Design |
| 250 ## - EDITION STATEMENT | |
| Edition statement | 5th |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. | |
| Name of publisher, distributor, etc. | Wiley India Pvt. Ltd. India |
| Place of publication, distribution, etc. | New Delhi |
| Date of publication, distribution, etc. | 2014,c2012 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | 899 |
| 500 ## - GENERAL NOTE | |
| General note | Considered a standard in the course, Juvinall and Marshek's Machine Component Design continues to focus on the fundamentals of component design -- free body diagrams, force flow concepts, failure theories and fatigue design, with applications to fasteners, springs, bearings, gears, clutches and brakes. Problem-solving skills are developed by the implementation of a proven methodology which provides a structure for accurately formulating problems and clearly presenting solutions. The fifth edition includes additional coverage of composites, the material selection process and wear / wear theory, along with new and updated examples and homework problems. |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE | |
| Bibliography, etc. note | TABLE OF CONTENTS<br/>Part 1 Fundamentals<br/><br/>Chapter 1: Mechanical Engineering design in Broad Perspective<br/><br/>1.1 An Overview of the Subject<br/><br/>1.2 Safety Considerations<br/><br/>1.3 Ecological Considerations<br/><br/>1.4 Societal Considerations,<br/><br/>1.5 Overall Design Considerations<br/><br/>1.6 Systems of Units<br/><br/>1.7 Methodology for Solving Machine Component Problems<br/><br/>1.8 Work and Energy<br/><br/>1.9 Power<br/><br/>1.10 Conservation of Energy <br/><br/> <br/><br/>Chapter 2: Load Analysis <br/><br/>2.1 Introduction<br/><br/>2.2 Equilibrium Equations and Free-Body Diagrams<br/><br/>2.3 Beam Loading<br/><br/>2.4 Locating Critical Sections-Force Flow Concept<br/><br/>2.5 Load Division Between Redundant Supports<br/><br/>2.6 Force Flow Concept Applied to Redundant Ductile Structures <br/><br/> <br/><br/>Chapter 3: Materials <br/><br/>3.1 Introduction<br/><br/>3.2 The Static Tensile Test-"Engineering" Stress-Strain Relationships<br/><br/>3.3 Implications of the "Engineering" Stress-Strain Curve<br/><br/>3.4 The Static Tensile Test-"True" Stress-Strain Relationships<br/><br/>3.5 Energy-Absorbing Capacity<br/><br/>3.6 Estimating Strength Properties from Penetration Hardness Tests<br/><br/>3.7 Use of "Handbook" Data for Material Strength Properties<br/><br/>3.8 Machinability<br/><br/>3.9 Cast Iron<br/><br/>3.10 Steel<br/><br/>3.11 Nonferrous Alloys<br/><br/>3.12 Plastics, and Composites<br/><br/>3.13 Material Selection Charts<br/><br/>3.14 Engineering Material Selection Process <br/><br/> <br/><br/>Chapter 4: Static Body Stresses <br/><br/>4.1 Introduction<br/><br/>4.2 Axial Loading<br/><br/>4.3 Direct Shear Loading<br/><br/>4.4 Torsional Loading<br/><br/>4.5 Pure Bending Loading, Straight Beams<br/><br/>4.6 Pure Bending Loading, Curved Beams<br/><br/>4.7 Transverse Shear Loading in Beams<br/><br/>4.8 Induced Stresses, Mohr Circle Representation<br/><br/>4.9 Combined Stresses-Mohr Circle Representation<br/><br/>4.10 Stress Equations Related to Mohr's Circle<br/><br/>4.11 Three-Dimensional Stresses<br/><br/>4.12 Stress Concentration Factor, Kt<br/><br/>4.13 Importance of Stress Concentration<br/><br/>4.14 Residual Stresses Caused by Yielding-Axial Loading<br/><br/>4.15 Residual Stresses Caused by Yielding-Bending and Torsional Loading<br/><br/>4.16 Thermal Stresses<br/><br/>4.17 Importance of Residual Stresses <br/><br/> <br/><br/>Chapter 5: Elastic Strain, Deflection and Stability <br/><br/>5.1 Introduction<br/><br/>5.2 Strain Definition, Measurement and Mohr Circle Representation<br/><br/>5.3 Analysis of Strain-Equiangular Rosettes<br/><br/>5.4 Analysis of Strain-Rectangular Rosettes<br/><br/>5.5 Elastic Stress-Strain Relationships and Three-Dimensional Mohr Circles<br/><br/>5.6 Deflection and Spring Rate-Simple Cases<br/><br/>5.7 Beam Deflection<br/><br/>5.8 Determining Elastic Deflections by Castigliano's Method<br/><br/>5.9 Redundant Reactions by Castigliano's Method<br/><br/>5.10 Euler Column Buckling-Elastic Instability<br/><br/>5.11 Effective Column Length for Various End Conditions<br/><br/>5.12 Column Design Equations-J. B. Johnson Parabola<br/><br/>5.13 Eccentric Column Loading-the Secant Formula<br/><br/>5.14 Equivalent Column Stresses<br/><br/>5.15 Other Types of Buckling<br/><br/>5.16 Finite Element Analysis<br/><br/> <br/><br/>Chapter 6: Failure Theories, Safety Factors and Reliability<br/><br/>6.1 Introduction<br/><br/>6.2 Types of Failure<br/><br/>6.3 Fracture Mechanics-Basic Concepts<br/><br/>6.4 Fracture Mechanics-Applications<br/><br/>6.5 The "Theory" of Static Failure Theories<br/><br/>6.6 Maximum-Normal-Stress Theory<br/><br/>6.7 Maximum-Shear-Stress Theory<br/><br/>6.8 Maximum-Distortion-Energy Theory (Maximum- Octahedral-Shear-Stress Theory<br/><br/>6.9 Modified Mohr Theory<br/><br/>6.10 Selection and Use of Failure Theories<br/><br/>6.11 Safety Factors-Concept and Definition<br/><br/>6.12 Safety Factors-Selection of a Numerical Value<br/><br/>6.13 Reliability<br/><br/>6.14 Normal Distributions<br/><br/>6.15 Interference Theory of Reliability Prediction <br/><br/> <br/><br/>Chapter 7: Impact <br/><br/>7.1 Introduction<br/><br/>7.2 Stress and Deflection Caused by Linear and Bending Impact<br/><br/>7.3 Stress and Deflection Caused by Torsional Impact<br/><br/>7.4 Effect of Stress Raisers on Impact Strength <br/><br/> <br/><br/>Chapter 8: Fatigue<br/><br/>8.1 Introduction<br/><br/>8.2 Basic Concepts<br/><br/>8.3 Standard Fatigue Strengths ( ) for Rotating Bending<br/><br/>8.4 Fatigue Strengths for Reversed Bending and Reversed Axial Loading<br/><br/>8.5 Fatigue Strength for Reversed Torsional Loading<br/><br/>8.6 Fatigue Strength for Reversed Biaxial Loading<br/><br/>8.7 Influence of Surface and Size on Fatigue Strength<br/><br/>8.8 Summary of Estimated Fatigue Strengths for Completely Reversed Loading<br/><br/>8.9 Effect of Mean Stress on Fatigue Strength<br/><br/>8.10 Effect of Stress Concentration with Completely Reversed Fatigue Loading<br/><br/>8.11 Effect of Stress Concentration with Mean Plus Alternating Loads<br/><br/>8.12 Fatigue Life Prediction with Randomly Varying Loads<br/><br/>8.13 Effect of Surface Treatments on the Fatigue Strength of a Part<br/><br/>8.14 Mechanical Surface Treatments-Shot Peening and Others<br/><br/>8.15 Thermal and Chemical Surface-Hardening Treatments (Induction Hardening, Carburizing and Others)<br/><br/>8.16 Fatigue Crack Growth<br/><br/>8.17 General Approach for Fatigue Design <br/><br/> <br/><br/>Chapter 9: Surface Damage <br/><br/>9.1 Introduction<br/><br/>9.2 Corrosion: Fundamentals<br/><br/>9.3 Corrosion: Electrode and Electrolyte Heterogeneity<br/><br/>9.4 Design for Corrosion Control<br/><br/>9.5 Corrosion Plus Static Stress<br/><br/>9.6 Corrosion Plus Cyclic Stress<br/><br/>9.7 Cavitation Damage<br/><br/>9.8 Types of Wear<br/><br/>9.9 Adhesive Wear<br/><br/>9.10 Abrasive Wear<br/><br/>9.11 Fretting<br/><br/>9.12 Analytical Approach to Wear<br/><br/>9.13 Curved-Surface Contact Stresses<br/><br/>9.14 Surface Fatigue Failures<br/><br/>9.15 Closure <br/><br/> <br/><br/>Part 2 Applications<br/><br/> <br/><br/>Chapter 10: Threaded Fasteners and Power Screws <br/><br/>10.1 Introduction<br/><br/>10.2 Thread Forms, Terminology and Standards<br/><br/>10.3 Power Screws<br/><br/>10.4 Static Screw Stresses<br/><br/>10.5 Threaded Fastener Types<br/><br/>10.6 Fastener Materials and Methods of Manufacture<br/><br/>10.7 Bolt Tightening and Initial Tension<br/><br/>10.8 Thread Loosening and Thread Locking<br/><br/>10.9 Bolt Tension with External Joint-Separating Force<br/><br/>10.10 Bolt (or Screw) Selection for Static Loading<br/><br/>10.11 Bolt (or Screw) Selection for Fatigue Loading: Fundamentals<br/><br/>10.12 Bolt (or Screw) Selection for Fatigue Loading: Using Special Test Data<br/><br/>10.13 Increasing Bolted-Joint Fatigue Strength<br/><br/> <br/><br/>Chapter 11: Rivets, Welding and Bonding<br/><br/>11.1 Introduction<br/><br/>11.2 Rivets<br/><br/>11.3 Welding Processes<br/><br/>11.4 Welded Joints Subjected to Static Axial and Direct Shear Loading<br/><br/>11.5 Welded Joints Subjected to Static Torsional and Bending Loading<br/><br/>11.6 Fatigue Considerations in Welded Joints<br/><br/>11.7 Brazing and Soldering<br/><br/>11.8 Adhesives <br/><br/> <br/><br/>Chapter 12: Springs<br/><br/>12.1 Introduction<br/><br/>12.2 Torsion Bar Springs<br/><br/>12.3 Coil Spring Stress and Deflection Equations<br/><br/>12.4 Stress and Strength Analysis for Helical Compression Springs-Static Loading<br/><br/>12.5 End Designs of Helical Compression Springs<br/><br/>12.6 Buckling Analysis of Helical Compression Springs<br/><br/>12.7 Design Procedure for Helical Compression Springs-Static Loading<br/><br/>12.8 Design of Helical Compression Springs for Fatigue Loading<br/><br/>12.9 Helical Extension Springs<br/><br/>12.10 Beam Springs (Including Leaf Springs)<br/><br/>12.11 Torsion Springs<br/><br/>12.12 Miscellaneous Springs <br/><br/> <br/><br/>Chapter 13: Lubrication and Sliding Bearings <br/><br/>13.1 Types of Lubricants<br/><br/>13.2 Types of Sliding Bearings<br/><br/>13.3 Types of Lubrication<br/><br/>13.4 Basic Concepts of Hydrodynamic Lubrication<br/><br/>13.5 Viscosity<br/><br/>13.6 Temperature and Pressure Effects on Viscosity<br/><br/>13.7 Petroff's Equation for Bearing Friction<br/><br/>13.8 Hydrodynamic Lubrication Theory<br/><br/>13.9 Design Charts for Hydrodynamic Bearings<br/><br/>13.10 Lubricant Supply<br/><br/>13.11 Heat Dissipation and Equilibrium Oil Film Temperature<br/><br/>13.12 Bearing Materials<br/><br/>13.13 Hydrodynamic Bearing Design<br/><br/>13.14 Boundary and Mixed-Film Lubrication<br/><br/>13.15 Thrust Bearings<br/><br/>13.16 Elastohydrodynamic Lubrication <br/><br/> <br/><br/>Chapter 14: Rolling-Element Bearings <br/><br/>14.1 Comparison of Alternative Means for Supporting Rotating Shafts<br/><br/>14.2 History of Rolling-Element Bearings<br/><br/>14.3 Rolling-Element Bearing Types<br/><br/>14.4 Design of Rolling-Element Bearings<br/><br/>14.5 Fitting of Rolling-Element Bearings<br/><br/>14.6 "Catalogue Information" for Rolling-Element Bearings<br/><br/>14.7 Bearing Selection<br/><br/>14.8 Mounting Bearings to Provide Properly for Thrust Load <br/><br/> <br/><br/>Chapter 15: Spur Gears <br/><br/>15.1 Introduction and History<br/><br/>15.2 Geometry and Nomenclature<br/><br/>15.3 Interference and Contact Ratio<br/><br/>15.4 Gear Force Analysis<br/><br/>15.5 Gear-Tooth Strength<br/><br/>15.6 Basic Analysis of Gear-Tooth-Bending Stress (Lewis Equation)<br/><br/>15.7 Refined Analysis of Gear-Tooth-Bending Strength: Basic Concepts<br/><br/>15.8 Refined Analysis of Gear-Tooth-Bending Strength: Recommended Procedure<br/><br/>15.9 Gear-Tooth Surface Durability-Basic Concepts<br/><br/>15.10 Gear-Tooth Surface Fatigue Analysis-Recommended Procedure<br/><br/>15.11 Spur Gear Design Procedures<br/><br/>15.12 Gear Materials<br/><br/>15.13 Gear Trains <br/><br/> <br/><br/>Chapter 16: Helical, Bevel and Worm Gears<br/><br/>16.1 Introduction<br/><br/>16.2 Helical-Gear Geometry and Nomenclature<br/><br/>16.3 Helical-Gear Force Analysis<br/><br/>16.4 Helical-Gear-Tooth-Bending and Surface Fatigue Strengths<br/><br/>16.5 Crossed Helical Gears<br/><br/>16.6 Bevel Gear Geometry and Nomenclature<br/><br/>16.7 Bevel Gear Force Analysis<br/><br/>16.8 Bevel-Gear-Tooth-Bending and Surface Fatigue Strengths<br/><br/>16.9 Bevel Gear Trains; Differential Gears<br/><br/>16.10 Worm Gear Geometry and Nomenclature<br/><br/>16.11 Worm Gear Force and Efficiency Analysis<br/><br/>16.12 Worm-Gear-Bending and Surface Fatigue Strengths<br/><br/>16.13 Worm Gear Thermal Capacity <br/><br/> <br/><br/>Chapter 17: Shafts and Associated Parts <br/><br/>17.1 Introduction<br/><br/>17.2 Provision for Shaft Bearings<br/><br/>17.3 Mounting Parts onto Rotating Shafts<br/><br/>17.4 Rotating-Shaft Dynamics<br/><br/>17.5 Overall Shaft Design<br/><br/>17.6 Keys, Pins and Splines<br/><br/>17.7 Couplings and Universal Joints <br/><br/> <br/><br/>Chapter 18: Clutches and Brakes<br/><br/>18.1 Introduction<br/><br/>18.2 Disk Clutches<br/><br/>18.3 Disk Brakes<br/><br/>18.4 Energy Absorption and Cooling<br/><br/>18.5 Cone Clutches and Brakes<br/><br/>18.6 Short-Shoe Drum Brakes<br/><br/>18.7 Eternal Long-Shoe Drum Brakes<br/><br/>18.8 Internal Long-Shoe Drum Brakes<br/><br/>18.9 Band Brakes <br/><br/> <br/><br/>Chapter 19: Miscellaneous Machine Components <br/><br/>19.1 Introduction<br/><br/>19.2 Flat Belts<br/><br/>19.3 V-Belts<br/><br/>19.4 Toothed Belts<br/><br/>19.5 Roller Chains<br/><br/>19.6 Inverted-Tooth Chains<br/><br/>19.7 History of Hydrodynamic Drives<br/><br/>19.8 Fluid Couplings<br/><br/>19.9 Hydrodynamic Torque Converters<br/><br/> <br/><br/>Appendix A: Units <br/><br/>A-1a Conversion Factors for British Gravitational, English and SI Units<br/><br/>A-1b Conversion Factor Equalities Listed by Physical Quantity<br/><br/>A-2a Standard SI Prefixes<br/><br/>A-2b SI Units and Symbols<br/><br/>A-3 Suggested SI Prefixes for Stress Calculations<br/><br/>A-4 Suggested SI Prefixes for Linear-Deflection Calculations<br/><br/>A-5 Suggested SI Prefixes for Angular-Deflection Calculations <br/><br/> <br/><br/>Appendix B: Properties of Sections and Solids <br/><br/>B-1a Properties of Sections<br/><br/>B-1b Dimensions and Properties of Steel Pipe and Tubing Sections<br/><br/>B-2 Mass and Mass Moments of Inertia of Homogeneous Solids<br/><br/> <br/><br/>Appendix C: Material Properties and Uses<br/><br/>C-1 Physical Properties of Common Metals<br/><br/>C-2 Tensile Properties of Some Metals<br/><br/>C-3a Typical Mechanical Properties and Uses of Gray Cast Iron<br/><br/>C-3b Mechanical Properties and Typical Uses of Malleable Cast Iron<br/><br/>C-3c Average Mechanical Properties and Typical Uses of Ductile (Nodular) Iron<br/><br/>C-4a Mechanical Properties of Selected Carbon and Alloy Steels<br/><br/>C-4b Typical Uses of Plain Carbon Steels<br/><br/>C-5a Properties of Some Water-Quenched and Tempered Steels<br/><br/>C-5b Properties of Some Oil-Quenched and Tempered Carbon Steels<br/><br/>C-5c Properties of Some Oil-Quenched and Tempered Alloy Steels<br/><br/>C-6 Effect of Mass on Strength Properties of Steel<br/><br/>C-7 Mechanical Properties of Some Carburizing Steels<br/><br/>C-8 Mechanical Properties of Some Wrought Stainless Steels<br/><br/>C-9 Mechanical Properties of Some Iron-Based Superalloys<br/><br/>C-10 Mechanical Properties, Characteristics, and Typical Uses of Some Wrought Aluminum Alloys<br/><br/>C-11 Tensile Properties, Characteristics, and Typical Uses of Some Cast-Aluminum Alloys<br/><br/>C-12 Temper Designations for Aluminum and Magnesium Alloys<br/><br/>C-13 Mechanical Properties of Some Copper Alloys<br/><br/>C-14 Mechanical Properties of Some Magnesium Alloys<br/><br/>C-15 Mechanical Properties of Some Nickel Alloys<br/><br/>C-16 Mechanical Properties of Some Wrought-Titanium Alloys<br/><br/>C-17 Mechanical Properties of Some Zinc Casting Alloys<br/><br/>C-18a Representative Mechanical Properties of Some Common Plastics<br/><br/>C-18b Properties of Some Common Glass-Reinforced and Unreinforced Thermoplastic Resins<br/><br/>C-18c Typical Applications of Common Plastics<br/><br/>C-19 Material Classes and Selected Members of Each Class<br/><br/>C-20 Designer's Subset of Engineering Materials<br/><br/>C-21 Processing Methods Used Most Frequently with Different Materials<br/><br/>C-22 Joinability of Materials<br/><br/>C-23 Materials for Machine Components<br/><br/>C-24 Relations Between Failure Modes and Material Properties<br/><br/> <br/><br/>Appendix D: Shear, Moment and Deflection Equations for Beams<br/><br/>D-1 Cantilever Beams<br/><br/>D-2 Simply Supported Beams<br/><br/>D-3 Beams with Fixed Ends <br/><br/> <br/><br/>Appendix E: Fits and Tolerances<br/><br/>E-1 Fits and Tolerances for Holes and Shafts<br/><br/>E-2 Standard Tolerance for Holes and Shafts<br/><br/>E-1 Tolerance Grades Produced from Machining Processes |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name entry element | Electronics |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| Koha item type | Books |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Home library | Current library | Date acquired | Cost, normal purchase price | Total Checkouts | Full call number | Barcode | Date last seen | Cost, replacement price | Price effective from | Koha item type | Date last checked out | Collection code |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Dewey Decimal Classification | BSDU Knowledge Resource Center, Jaipur | BSDU Knowledge Resource Center, Jaipur | 11/28/2016 | 949.00 | 621.815 JUV | 000739 | 02/12/2020 | 949.00 | 06/02/2017 | Books | |||||||
| Dewey Decimal Classification | BSDU Knowledge Resource Center, Jaipur | BSDU Knowledge Resource Center, Jaipur | 12/11/2016 | 949.00 | 1 | 621.815 JUV | 002196 | 03/17/2020 | 949.00 | 06/02/2017 | Books | 03/06/2020 | |||||
| Dewey Decimal Classification | Not For Loan | BSDU Knowledge Resource Center, Jaipur | BSDU Knowledge Resource Center, Jaipur | 12/11/2016 | 949.00 | 621.815 JUV | 002197 | 02/12/2020 | 949.00 | 06/02/2017 | Books | Not for Loan |

