Electromechanical design handbook / Ronald A. Walsh.

Format:

Book

Author/Creator:

Walsh, Ronald A.

Series:

McGraw-Hill handbooks

Language:

English

Subjects (All):

Electromechanical devices--Design and construction--Handbooks, manuals, etc.

Electromechanical devices.

Electromechanical devices--Design and construction.

Genre:

Handbooks and manuals.

Physical Description:

1 volume (various pagings) : illustrations ; 25 cm.

Edition:

Third edition.

Place of Publication:

New York : McGraw-Hill, [2000]

Summary:

A-Z guide to electrical/electronic and mechanical engineering design data. The ultimate sourcebook of electro-mechanical engineering design data is now better than ever, with thoroughly updated material, new discussions of engineering economics and elastomer springs. and a bounty of new drawings. Electro-Mechanical Design Handbook, Third Edition, by Ronald A. Walsh, gives you the know-how you need to develop parts, mechanisms, and assemblies, with thorough explanations of: *Properties, uses, and strength of engineering materials *Machine element design and mechanisms *Basic pneumatics, hydraulics, air handling and heat *Fastener and joining techniques *Layout and fabrication practices, including castings, moldings, extrusions and powder metal technology *Finishes and plating practices *Dimensioning and tolerancing practices *Much, much more!

Contents:

Chapter 1. Mathematics Reference and Measurement System Conversions 1

1.1. Plane Geometry 5

1.2. Transposing Equations 9

1.3. Algebraic Factors and Expansions 10

1.4. Powers-of-Ten Notation 17

1.5. Logarithms 17

1.6. Binomial Formula 19

1.7. Determinants 19

1.8. Trigonometry 21

1.9. Analytic Geometry 27

1.10. Basic Calculus 33

1.11. Percentages, Compound-Interest Calculations, and Engineering Economics 44

1.12. The Involute Function 46

1.13. U.S. Customary and Metric (SI) Measures and Conversions 49

1.14. Temperature Systems 49

1.15. Mathematical Signs and Symbols 50

1.16. Factors and Prime Numbers 51

1.17. Newton's Method for Solving Intractable Equations 51

1.18. The Greek Alphabet 68

1.19. Decimal Chart 68

1.20. Degrees and Radians Chart 68

Chapter 2. Practical Engineering Mechanics 1

2.1. Definitions and Basic Units of Mechanics 1

2.2. Statics 3

2.3. Dynamics 13

2.4. Newton's Laws of Motion 39

2.5. Basic Engineering Mechanics Equations 39

Chapter 3. Mensuration, Descriptive Geometry, and Basic Optics 1

3.1. Mensuration 1

3.2. Basic Descriptive Geometry 14

3.3. Basic Optics 19

Chapter 4. Engineering Materials, Properties, and Uses 1

4.1. Irons and Steels 1

4.2. Brinell Hardness Testing 4

4.3. AISI-SAE Designation System for Steels 4

4.4. Common Aluminum Alloys 5

4.5. Copper and Its Alloys 6

4.6. Other Common Metals and Alloys 7

4.7. Common Plastics 7

4.8. Common Plastics

Mechanical Properties 16

4.9. Insulating Materials 16

4.10. Elastomers 16

4.11. Common Woods 18

4.12. Thermal Expansion of Materials 18

4.13. Special-Purpose Alloys 19

4.14. Hardening Processes for Metals 47

4.15. Color Scale of Temperature 49

4.16. Standard Pipe Dimensions 49

4.17. Common and Formal Names of Chemicals 50

4.18. Conductive Properties of Various Metals and Alloys 50

4.19. Electromotive Series 50

4.20. Chemical Symbols for Metals 53

4.21. The Elements 53

4.22. Laboratory Analysis of Materials 53

4.23. Obsolete SAE Steels 56

4.24. Identification of Plastics 56

4.25. Chemical Resistance of Plastics 56

4.26. Hardness Values of Selected Elastomers 56

4.27. Weights and Specific Gravities of Various Solids, Liquids, and Gases 56

Chapter 5. Strength of Materials 1

5.1. Common Terms Used in Strength of Materials 1

5.2. Impact Stresses 3

5.3. Fatigue 5

5.4. Vibratory Stresses in Bars and Beams 5

5.5. Beams and Reactions at the Supports 5

5.6. Shear Diagrams 7

5.7. Moment Diagrams 8

5.8. Bending 9

5.9. Ultimate Strength of Beams 10

5.10. Torison 11

5.11. Buckling and Bending Failure of Columns 13

5.12. Machine Elements Used as Columns 14

5.13. Moments of Inertia 14

5.14. Properties of Sections 16

5.15. Beam Equations

AISC Standard 28

5.16. Combined Stresses 46

5.17. Pressure Vessels 46

5.18. Eyebolt Safe Loads 46

5.19. Hardness Conversion Equivalents 47

5.20. Special Joint Applications 47

5.21. Converting Beam Equations for Maximum Stress at Any Point 55

Chapter 6. Electrical and Electronic Engineering Practices and Design Data 1

6.1. Terms, Conversions, Factors, Constants, and Properties 1

6.2. Circuit Elements 8

6.3. Decibels 19

6.4. Wavelength 19

6.5. Properties of Electrical Metals 20

6.6. Electrical Components 20

6.7. Electrical Power System Components 72

6.8. Common Electronic and Electrical Terms and Definitions 121

6.9. Electronics and Electronic Components 126

6.10. Printed-Circuit Boards 172

6.11. Electrochemical Battery Systems 183

6.12. Electrical Measuring Instruments 206

6.13. Electrical and Electronic Test Instruments 210

6.14. Electronic Packaging Techniques 215

6.15. Basic Electric Circuit Analysis and Procedures

DC and AC 221

6.16. Bridge Circuits for Electrical Element Measurements: R, C, and L 249

6.17. Electrical and Electronic Symbols 254

6.18. International Electrical and Electronic Component Trademarks 254

6.19. Fusing Wire Sizes and Materials 261

6.20. Short Circuits in Electric Power Distribution Equipment (Switchgear) 261

6.21. Electrical and Electronic Reference Data 269

6.22. Vector Algebra for AC Electric Circuits 280

Chapter 7. Comprehensive Spring Design 1

7.1. Introduction to Spring Design 1

7.2. Compression and Extension Springs 4

7.3. Torsion Springs 11

7.4. Spiral Torsion Springs 13

7.5. Flat Springs 15

7.6. Spring Washers 16

7.7. Belleville Washers (Disk Springs) 18

7.8. Hair Springs 20

7.9. Torsion Bars 21

7.10. Allowable Working Stresses in Springs 23

7.11. Spring End Types 23

7.12. Spring Materials Data 24

7.13. Spring Calculations and Sample Designs 28

7.14. Spring Rate Curves 31

7.15. Spring Drawings or Forms 31

7.16. Heat Treatment and Postbaking of Electroplated Springs 36

7.17. Dynamics of Helical Compression and Extension Springs 38

7.18. Spring Rates for Spring Combinations 40

7.19. Final Notes on Spring Design 41

7.20. Spring Terminology for Design and Manufacturing 43

7.21. Elastomer Springs 46

Chapter 8. Machine Element Design and Mechanisms 1

8.1. Power Transmission Components and Design Procedures 1

8.2. Chains and Sprockets 9

8.3 Shafts and Shafting Materials 14

8.4. Couplings 26

8.5. Clutches 28

8.6. Power Screws 42

8.7. Ratchets and Ratchet Gearing 47

8.8. Gearing and Design Procedures 51

8.9. Gear Materials and Hardness Ranges 88

8.10. Forces and Wear Loads in Gearing Systems 91

8.11. Gear Loads and Design Procedures 110

8.12. Epicyclic Gearing 122

8.13. Gear-Train Calculations 135

8.14. Differential Gearing 138

8.15. Sprockets: Geometry and Dimensioning 139

8.16. Ratchets 142

8.17. Gear Design Programs for PCs and CAD Stations 142

8.18. Keyways and Setscrews for Gear Shafts 142

8.19. Calculations for Power, Torque, Force, Velocity, and RPM 142

8.20. Additional Gear Data and References 142

8.21. Gear Wear and Failure 143

8.22. Gear Manufacturing Processes 145

8.23. Gear Lubrication 146

8.24. Gear Summary Sheets 146

8.25. Cams: Development, Layout, and Design 146

8.26. Antifriction Bearings 161

8.27. Rolling-Element Antifriction Bearings 168

8.28. Selection of Bearings: Sources and Procedures 173

8.29. Mechanisms and Linkages: Design, Operating Principles, and Analysis 176

8.30. Mechanism and Linkage Applications 222

8.31. Columns Used as Machine Elements 226

8.32. Stresses Due to Interference or Force Fits in Mechanisms 227

8.33. Limits and Fits: U.S.

Customary and SI (Metric) Standards 233

Chapter 9. Pneumatics, Hydraulics, Air Handling, and Heat 1

9.1. Pneumatics 1

9.2. Basic Hydraulics 5

9.3. Air-Handling Data 10

9.4. Transmission of Heat 13

9.5. Specific Heat (Thermal Capacity) 14

9.6. Temperatures of Mixtures and Heat Requirements 15

9.7. Heat Losses 17

9.8. Viscosity Equivalents: Universal Viscosity Measuring Systems 22

9.9. Hydraulic and Pneumatic Component Systems 24

Chapter 10. Fastening and Joining Techniques and Design Data 1

10.1. Threaded Fasteners: Bolts, Screws, and Nuts 1

10.2. Thread Systems: American Standard and Metric (60[degree] V) 17

10.3. Rivets 49

10.4. Pins 53

10.5. Retaining Rings 57

10.6. Set, Clamp, and Split Collars 60

10.7. Machinery Bushings, Shims, and Arbor Spacers 65

10.8. Specialty Fasteners 66

10.9. Welding, Brazing, and Soldering 73

10.10. Adhesive Bonding 93

Chapter 11. Sheet-Metal Design, Layout, and Fabrication Practices 1

11.1. Carbon and Low-Alloy Steel Sheets 1

11.2. Nonferrous Sheet Metal 3

11.3. Machinery for Sheet-Metal Fabrication 4

11.4. Gauging Systems 7

11.5. Sheet-Metal Fabrication Methods 8

11.6. Sheet-Metal Flat Patterns 12

11.7. Sheet-Metal Developments and Transitions 19

11.8. Developing Flat Patterns 21

11.9. Stiffening Sheet-Metal Parts 21

11.10. Sheet-Metal Faying Surfaces 22

11.11. Design Points for Sheet-Metal Parts 23

11.12. Typical Transitions and Developments 25

11.13. Sheet-Metal Fabrication Practices 32

11.14. Light-Gauge Sheet-Metal Structural Forms: Dimensions and Strengths 36

11.15. The Effects of Cold Working Steel 37

11.16. Advanced Sheet-Metal Cutting Methods and Special Die Forming 57

11.17. Sheet-Metal Angled Corner-Flange Notching: Flat-Pattern Development 62

Chapter 12. Castings, Moldings, Extrusions, and Powder-Metal Technology 1

12.1. Castings 1

12.2. Ferrous Metal Alloys Used in Casting 9

12.3. Representative Casting Metals and Alloys 10

12.4. ASTM-Listed Cast Irons and Steels 10

12.5. Plastic Moldings 12

12.6. Extrusions 19

12.7. Powder-Metal Technology 23

12.8. Table for Squares, Hexagons, and Octagons 25

12.9. Design Guides for Cast and Molded Metal Plastics and Parts 25

Chapter 13. Engineering Finishes, Plating Practices, and Specifications 1

13.1. Finishes 1

13.2. Corrosion of Metals: Principles 3

13.3. Electroplating Data and Specifications 5

13.4. Coloring Processes for Metals and Alloys 12

13.5. Coloring Metals (Ferrous and Nonferrous) 12

13.6. Etching Metals 14

13.7. Anodizing 15

13.8. Paint Finishing 18

Chapter 14. Manufacturing Machinery and Dimension and Tolerancing Practices 1

14.1. Manufacturing Machinery and Machine Tools 1

14.2. Basic Dimensioning and Tolerancing Procedures 14

Chapter 15. Subjects of Importance to the Design Engineer 1

15.1. Societies, Associations, Institutes, and Specification Authorities 1

15.2. ANSI Standards Applicable to Product Design Engineering and Manufacturing Processes and Inspection 3

15.3. Approval Associations and Their Trademarks 10

15.4. Frequently Used Mechanical, Electrical, and Electronic Standards 10

15.5. United States Patents 13

15.6. Product Liability 16

15.7. Prototypes of Products 20

15.8. Computers in Design 21

15.9. Electromechanical System Design 22

15.10. Quality-Control Systems 29

15.11. Test Laboratories 30

15.12. Engineering Drawing Sizes and Formats 34.

Notes:

Includes index.

ISBN:

0071348123

OCLC:

42080377