كتاب Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta - صفحة 2
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 كتاب Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta

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عدد المساهمات : 14261
التقييم : 22948
تاريخ التسجيل : 01/07/2009
العمر : 28
الدولة : مصر
العمل : مدير منتدى هندسة الإنتاج والتصميم الميكانيكى
الجامعة : المنوفية

مُساهمةموضوع: كتاب Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta    الإثنين 19 يوليو 2010, 12:28 am

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Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta


ويتناول الموضوعات الآتية :

1. Definition.
2. Classifications of Machine Design.
3. General Considerations in Machine Design.
4. General Procedure in Machine Design.
5. Fundamental Units. 6. Derived Units.
7. System of Units.
8. S.I Units (International System of Units).
9. Meter.
10. Kilogram.
11. Second.
12. Presentation of Units and their values.
13. Rules for S.I. Units.14. Mass and Weight.
15. Inertia. 16. Laws of Motion.
17. Force.
18. Absolute and Gravitational Units of Force.
19. Moment of a Force.
20. Couple.
21. Mass Density.
22. Mass Moment of Inertia.
23. Angular Momentum.
24. Torque.
25. Work. 26. Power.
27. Energy.
2. Engineering Materials and Their Properties...16–52
1. Introduction.
2. Classification of Engineering Materials.
3. Selection of Materials for Engineering Purposes.
4. Physical Properties of Metals.
5. Mechanical Properties of Metals.
6. Ferrous Metals.
7. Cast Iron.
8. Types of Cast Iron.
9. Alloy Cast Iron.
10. Effect of Impurities on Cast Iron.
11. Wrought Iron.
12. Steel.
13. Steels Designated on the Basis of Mechanical Properties.
14. Steels Designated on the Basis of Chemical Composition.
15. Effect of Impuritieson Steel. 16. Free Cutting Steels.
17. Alloy Steels.
18. Indian Standard Designation of Low and Medium Alloy Steels.
19. Stainless Steel.
20. Heat Resisting Steels.
21. Indian Standard Designation of High Alloy Steels (Stainless Steel and Heat Resisting Steel).
22. High Speed Tool Steels.
23. Indian Standard Designation of High Speed Tool Steel.
24. Spring Steels.25. Heat Treatment of Steels.
26. Non-ferrous Metals.
27. Aluminium.
28. Aluminium Alloys.
29. Copper.
30. Copper Alloys.
31. Gun Metal.
32. Lead.
33. Tin.
34. Bearing Metals.
35. Zinc Base Alloys.
36. Nickel Base Alloys.
37. Non-metallic Materials
1. Introduction.
2. Manufacturing Processes.
3. Casting.
4. Casting Design.
5. Forging.
6. ForgingDesign.
7. Mechanical Working of Metals.
8. HotWorking.
9. Hot Working Processes.
10. Cold Working.
11. Cold Working Processes.
12. Interchangeability.
13. Important Terms Used in Limit System.
14. Fits.
15. Types of Fits.
16. Basis of Limit System.
17. Indian Standard System of Limits and Fits.
18. Calculation of Fundamental Deviation for Shafts.
19. Calculation of Fundamental Deviation for Holes.
20. Surface Roughness and its Measurement.
21. Preferred Numbers.
4. Simple Stresses in Machine Parts...87–119
1. Introduction.
2. Load.
3. Stress.
4. Strain.
5. Tensile Stress and Strain.
6. Compressive Stress and Strain.
7. Young's Modulus or Modulus of Elasticity.
8. Shear Stress and Strain
9. Shear Modulus or Modulus of Rigidity.
10. Bearing Stress.
11. Stress-strain Diagram.
12. Working Stress.
13. Factor of Safety.
14. Selection of Factor of Safety.
15. Stresses in Composite Bars.
16. Stresses Due to Change in Temperature—Thermal Stresses.
17. Linear and Lateral Strain.
18. Poisson's Ratio.
19. Volumetric Strain.
20. Bulk Modulus.
21. Relation Between Bulk Modulus and Young'sModulus.
22. Relation Between Young's Modulus and Modulus of Rigidity.
23. Impact Stress.
24. Resilience.
5. Torsional and Bending Stresses in Machine Parts ...120–180
1. Introduction.
2. Torsional Shear Stress.
3. Shafts in Series and Parallel.
4. Bending Stress in Straight Beams.
5. Bending Stress in Curved Beams.
6. Principal Stresses and Principal Planes.
7. Determination of Principal Stresses for a Member Subjected to Bi-axial Stress.
8. Application of Principal Stresses in Designing Machine Members.
9. Theories of Failure Under Static Load.
10. Maximum Principal or Normal Stress Theory(Rankine’s Theory).
11. Maximum Shear Stress Theory(Guest’s or Tresca’s Theory).
12. Maximum Principal Strain Theory (Saint Venant’s Theory).
13. Maximum Strain Energy Theory (Haigh’s Theory).
14. Maximum Distortion Energy Theory (Hencky and Von Mises Theory).
15. Eccentric Loading—Direct and Bending Stresses Combined. 16. Shear Stresses in Beams.
1. Introduction.
2. Completely Reversed or Cyclic Stresses.
3. Fatigue and Endurance Limit.
4. Effect of Loading on Endurance Limit—Load Factor.
5. Effect of Surface Finish on Endurance Limit—Surface Finish Factor.
6. Effect of Size on Endurance Limit—Size Factor.
7. Effect of Miscellaneous Factors on Endurance Limit.
8. Relation Between Endurance Limit and Ultimate Tensile Strength.
9. Factor of Safety for Fatigue Loading.
10. Stress Concentration.
11. Theoretical or Form Stress Concentration Factor.
12. Stress Concentration due to Holes and Notches.
13. Methods of Reducing Stress Concentration.
14. Factors to be Considered while Designing Machine Parts to Avoid Fatigue Failure.
15. Stress Concentration Factor for Various Machine Members.
16. Fatigue Stress Concentration Factor.
17. Notch Sensitivity.18. Combined Steady and Variable Stresses.
19. Gerber Method for Combination of Stresses.
20. Goodman Method for Combination of Stresses.
21. Lederberg Method for Combination of Stresses.
22. Combined Variable Normal Stress and Variable Shear Stress.
23. Application of Lederberg's Equation.
7. Pressure Vessels...224–260
1. Introduction.
2. Classification of Pressure Vessels.
3. Stresses in a Thin Cylindrical Shell due to an Internal Pressure.
4. Circumferential or Hoop Stress.
5. Longitudinal Stress.
6. Change in Dimensions of a Thin Cylindrical Shell due to an Internal Pressure.
7. Thin Spherical Shells Subjected to an Internal Pressure.
8. Change in Dimensions of a Thin Spherical Shell due to an Internal Pressure.
9. Thick Cylindrical Shell Subjected to an Internal Pressure.
10. Compound Cylindrical Shells.
11. Stresses in Compound Cylindrical Shells.
12. Cylinder Heads and Cover Plates.
8. Pipes and Pipe Joints...261–280
1. Introduction.
2. Stresses in Pipes.
3. Design of Pipes.
4. Pipe Joints.
5. Standard Pipe Flanges for Steam.
6. Hydraulic Pipe Joint for High Pressures.
7. Design of Circular Flanged Pipe Joint.
8. Design of Oval Flanged Pipe Joint.
9. Design of Square Flanged Pipe Joint
18. Bolted Joints under Eccentric Loading.
19. Eccentric Load Acting Parallel to the Axis of Bolts.
20. Eccentric Load Acting Perpendicular to the Axis of Bolts.
21. Eccentric Load on a Bracket with Circular Base.
22. Eccentric Load Acting in the Plane Containing the Bolts.
12. Cotter and Knuckle Joints...431–469
1. Introduction.
2. Types of Cotter Joints.
3. Socket and Spigot Cotter Joint.
4. Design of Socket and Spigot Cotter Joint.
5. Sleeve and Cotter Joint.
6. Design of Sleeve and Cotter Joint.
7. Gib and Cotter Joint.
8. Design of Gib and Cotter Joint for Strap End of a Connecting Rod.
9. Design of Gib and Cotter Joint for Square Rods.
10. Design of Cotter Joint to Connect Piston Rod and Cross head.
11. Design of Cotter Foundation Bolt.
12. Knuckle Joint.
13. Dimensions of Various Parts of the Knuckle Joint.
14. Methods of Failure of Knuckle Joint.
15. Design Procedure of Knuckle Joint.
16. Adjustable Screwed Joint for Round Rods (Turn Buckle).
17. Design of Turn Buckle.
13. Keys and Coupling...470–508
1. Introduction.
2. Types of Keys.
3. Sunk Keys.
4. Saddle Keys.
5. Tangent Keys.
6. Round Keys.
7. Splines.
8. Forces acting on a Sunk Key.
9. Strength of a Sunk Key.
10. Effect of Key ways.
11. Shaft Couplings.
12. Requirements of a Good Shaft Coupling.
13. Types of Shaft Couplings.
14. Sleeve or Muff Coupling.
15. Clamp or Compression Coupling.
16. Flange Coupling.
17. Design of Flange Coupling.
18. Flexible Coupling.
19. Bushed Pin Flexible Coupling.
20. Old ham Coupling. 21. Universal Coupling.
14. Shafts...509–557
1. Introduction.
2. Material Used for Shafts.
3. Manufacturing of Shafts.
4. Types of Shafts.
5. Standard Sizes of Transmission Shafts.
6. Stresses in Shafts.
7. Maximum Permissible Working Stresses for Transmission Shafts.
8. Design of Shafts.
9. Shafts Subjected to Twisting Moment Only.
10. Shafts Subjected to Bending Moment Only.
11. Shafts Subjected to Combined Twisting Moment and Bending Moment.
12. Shafts Subjected to Fluctuating Loads.
13. Shafts Subjected to Axial Load in addition to Combined Torsion and Bending Loads.
14. Design of Shafts on the Basis of Rigidity.
23. Springs...820–884
1. Introduction.
2. Types of Springs.
3. Material for Helical Springs.
4. Standard Size of Spring Wire.
5. Terms used in Compression Springs.
6. End Connections for Compression Helical Springs.
7. End Connections for Tension Helical Springs.
8. Stresses in Helical Springs of Circular Wire.
9. Deflection of Helical Springs of Circular Wire.
10. Eccentric Loadingof Springs.
11. Buckling of Compression Springs.
12. Surge in Springs.
13. Energy Stored in Helical Springs of Circular Wire.
14. Stress and Deflection in Helical Springs of Non-circular Wire.
15. Helical Springs Subjected to Fatigue Loading.
16. Springs in Series.
17. Springs in Parallel.
18. Concentric or Composite Springs.
19. Helical Torsion Springs.
20. Flat Spiral Springs.
21. Leaf Springs.
22. Construction of Leaf Springs.
23. Equalized Stresses in Spring Leaves (Nipping).
24. Length of Leaf Spring Leaves.
25. Standard Sizes of Automobile Suspension Springs.
26. Material for Leaf Springs.
24. Clutchces...885–916
1. Introduction.
2. Types of Clutches.
3. Positive Clutches.
4. Friction Clutches.
5. Material for Friction Surfaces.
6. Considerations in Designing a Friction Clutch.
7. Types of Friction Clutches.
8. Single Disc or Plate Clutch.
9. Design of a Disc or Plate Clutch.
10. Multiple Disc Clutch.
11. Cone Clutch.
12. Design of a Cone Clutch.
13. Centrifugal Clutch.
14. Design of a Centrifugal Clutch.
25. Brakes...917–961
1. Introduction.
2. Energy Absorbed by a Brake.
3. Heat to be Dissipated during Braking.
4. Materials for Brake Lining.
5. Types of Brakes.
6. Single Block or Shoe Brake.
7. Pivoted Block or Shoe Brake.
8. Double Blockor Shoe Brake.
9. Simple Band Brake.
10. Differential Band Brake.
11. Band and Block Brake.
12. Internal Expanding Brake.
26. Sliding Contact Bearings...962–995
1. Introduction.
2. Classification of Bearings.
3. Types of Sliding Contact Bearings.
4. Hydrodynamic Lubricated Bearings.
5. Assumptions in Hydrodynamic Lubricated Bearings.
6. Important Factors for the Formation of Thick Oil Film in Hydrodynamic Lubricated Bearings.
7. Wedge Film Journal Bearings.
8. Squeeze Film Journal Bearings.
9. Properties of Sliding Contact Bearing Materials.
10. Materials usedfor Sliding Contact Bearings.
11. Lubricants.
12. Properties of Lubricants.
13. Terms used in Hydrodynamic Journal Bearings.
14. Bearing Characteristic Number and Bearing Modulus for  Journal Bearings.
15. Coefficient of Friction for Journal Bearings.
16. Critical Pressure of the Journal Bearing.
17. Somersetted Number.
18. Heat Generated in a Journal Bearing.
19. Design Procedure for Journal Bearings.
20. Solid Journal Bearing.
21. Bushed Bearing.
22. Split Bearing or Plummer Block.
23. Design of Bearing Caps and Bolts.
24. Oil Grooves.
25. Thrust Bearings.
26. Foot-step or Pivot Bearings.
27. Collar Bearings.
27. Rolling Contact Bearings...996–1020
1. Introduction.
2. Advantages and Disadvantages of Rolling Contact Bearings Over Sliding Contact Bearings.
3. Types of Rolling Contact Bearings.
4. Types of Radial Ball Bearings.
5. Standard Dimensions and Designation of Ball Bearings.
6. Thrust Ball Bearings.
7. Types of Roller Bearings.
8. Basic Static Load Ratingof Rolling Contact Bearings.
9. Static Equivalent Loadfor Rolling Contact Bearings.
10. Life of a Bearing.
11. Basic Dynamic Load Rating of Rolling Contact Bearings.
12. Dynamic Equivalent Load for Rolling Contact Bearings.
13. Dynamic Load Rating for Rolling Contact Bearings under Variable Loads.
14. Reliability of a Bearing.
15. Selection of Radial Ball Bearings.
16. Materials and Manufacture of Ball and Roller Bearings.
17. Lubrication of Ball and Roller Bearings.
28. Spur Gears...1021–1065
1. Introduction.
2. Friction Wheels.
3. Advantages andDisad vantages of Gear Drives.
4. Classification of Gears.5. Terms used in Gears.
6. Condition for Constant Velocity Ratio of Gears–Law of Gearing.
7. Forms of Teeth.
8. Cycloidal Teeth.
9. Involute Teeth.
10. Comparison Between Involute and Cycloidal Gears.
11. Systems of Gear Teeth.
12. Standard Proportions of Gear Systems.
13. Interference in Involute Gears.
14. Minimum Number of Teeth on the Pinion in order to Avoid Interference.
15. Gear Materials.
16. Design Considerations for a Gear Drive.
17. Beam Strength of Gear Teeth-Lewis Equation.
18. Permissible Working Stress for Gear Teeth in Lewis Equation.
19. Dynamic Tooth Load.
20. Static Tooth Load.
21. Wear Tooth Load.
22. Causes of Gear Tooth Failure.
23. Design Procedure for Spur Gears.
24. Spur Gear Construction.
25. Design of Shaft for Spur Gears.
26. Design of Arms for Spur Gears.
29. Helical Gears...1066–1079
1. Introduction.
2. Terms used in Helical Gears.
3. Face Width of Helical Gears.
4. Formative or Equivalent Number of Teeth for Helical Gears.
5. Proportions for Helical Gears. 6. Strength of Helical Gears.
30. Bevel Gears...1080–1100
1. Introduction.
2. Classification of Bevel Gears.
3. Terms used in Bevel Gears.
4. Determination of Pitch Angle for Bevel Gears.
5. Proportions for Bevel Gears.
6. Formative or Equivalent Number of Teeth for Bevel Gears—Tredgold's Approximation.
7. Strength of Bevel Gears. 8. Forces Acting on a Bevel Gear.
9. Design of a Shaft for Bevel Gears.
31. Worm Gears...1101–1124
1. Introduction
2. Types of Worms
3. Types of WormGears.
4. Terms used in Worm Gearing.
5. Proportion sfor Worms.
6. Proportions for Worm Gears.
7. Efficiency of Worm Gearing.
8. Strength of Worm Gear Teeth.
9. Wear Tooth Load for Worm Gear.
10. Thermal Rating of Worm Gearing.
11. Forces Acting on Worm Gears.
12. Design of Worm Gearing.
32. Internal Combustion Engine Parts...1125–1214
1. Introduction.
2. Principal Parts of an I. C. Engine.
3. Cylinder and Cylinder Liner.
4. Design of a Cylinder.
5. Piston.
6. Design Considerations for a Piston.
7. Material for Pistons.
8. Pistion Head or Crown .
9. Piston Rings.
10. Piston Skirt.
12. Piston Pin.
13. Connecting Rod.
14. Forces Acting on the Connecting Rod.
15. Design of Connecting Rod.
16. Crankshaft.
17. Material and Manufacture of Crankshafts.
18. Bearing Pressure and Stresses in Crank shafts.
19. Design Procedure for Crankshaft.
20. Design for Center Crank shaft.
21. Side or Overhung Crank shaft.
22. Valve Gear Mechanism.
23. Valves.
24. Rocker Arm.
Index...1215–1230


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عدد المساهمات : 14261
تاريخ التسجيل : 01/07/2009

مُساهمةموضوع: كتاب Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta    الإثنين 19 يوليو 2010, 12:28 am

أخوانى فى الله
أحضرت لكم كتاب

Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta


ويتناول الموضوعات الآتية :

1. Definition.
2. Classifications of Machine Design.
3. General Considerations in Machine Design.
4. General Procedure in Machine Design.
5. Fundamental Units. 6. Derived Units.
7. System of Units.
8. S.I Units (International System of Units).
9. Meter.
10. Kilogram.
11. Second.
12. Presentation of Units and their values.
13. Rules for S.I. Units.14. Mass and Weight.
15. Inertia. 16. Laws of Motion.
17. Force.
18. Absolute and Gravitational Units of Force.
19. Moment of a Force.
20. Couple.
21. Mass Density.
22. Mass Moment of Inertia.
23. Angular Momentum.
24. Torque.
25. Work. 26. Power.
27. Energy.
2. Engineering Materials and Their Properties...16–52
1. Introduction.
2. Classification of Engineering Materials.
3. Selection of Materials for Engineering Purposes.
4. Physical Properties of Metals.
5. Mechanical Properties of Metals.
6. Ferrous Metals.
7. Cast Iron.
8. Types of Cast Iron.
9. Alloy Cast Iron.
10. Effect of Impurities on Cast Iron.
11. Wrought Iron.
12. Steel.
13. Steels Designated on the Basis of Mechanical Properties.
14. Steels Designated on the Basis of Chemical Composition.
15. Effect of Impuritieson Steel. 16. Free Cutting Steels.
17. Alloy Steels.
18. Indian Standard Designation of Low and Medium Alloy Steels.
19. Stainless Steel.
20. Heat Resisting Steels.
21. Indian Standard Designation of High Alloy Steels (Stainless Steel and Heat Resisting Steel).
22. High Speed Tool Steels.
23. Indian Standard Designation of High Speed Tool Steel.
24. Spring Steels.25. Heat Treatment of Steels.
26. Non-ferrous Metals.
27. Aluminium.
28. Aluminium Alloys.
29. Copper.
30. Copper Alloys.
31. Gun Metal.
32. Lead.
33. Tin.
34. Bearing Metals.
35. Zinc Base Alloys.
36. Nickel Base Alloys.
37. Non-metallic Materials
1. Introduction.
2. Manufacturing Processes.
3. Casting.
4. Casting Design.
5. Forging.
6. ForgingDesign.
7. Mechanical Working of Metals.
8. HotWorking.
9. Hot Working Processes.
10. Cold Working.
11. Cold Working Processes.
12. Interchangeability.
13. Important Terms Used in Limit System.
14. Fits.
15. Types of Fits.
16. Basis of Limit System.
17. Indian Standard System of Limits and Fits.
18. Calculation of Fundamental Deviation for Shafts.
19. Calculation of Fundamental Deviation for Holes.
20. Surface Roughness and its Measurement.
21. Preferred Numbers.
4. Simple Stresses in Machine Parts...87–119
1. Introduction.
2. Load.
3. Stress.
4. Strain.
5. Tensile Stress and Strain.
6. Compressive Stress and Strain.
7. Young's Modulus or Modulus of Elasticity.
8. Shear Stress and Strain
9. Shear Modulus or Modulus of Rigidity.
10. Bearing Stress.
11. Stress-strain Diagram.
12. Working Stress.
13. Factor of Safety.
14. Selection of Factor of Safety.
15. Stresses in Composite Bars.
16. Stresses Due to Change in Temperature—Thermal Stresses.
17. Linear and Lateral Strain.
18. Poisson's Ratio.
19. Volumetric Strain.
20. Bulk Modulus.
21. Relation Between Bulk Modulus and Young'sModulus.
22. Relation Between Young's Modulus and Modulus of Rigidity.
23. Impact Stress.
24. Resilience.
5. Torsional and Bending Stresses in Machine Parts ...120–180
1. Introduction.
2. Torsional Shear Stress.
3. Shafts in Series and Parallel.
4. Bending Stress in Straight Beams.
5. Bending Stress in Curved Beams.
6. Principal Stresses and Principal Planes.
7. Determination of Principal Stresses for a Member Subjected to Bi-axial Stress.
8. Application of Principal Stresses in Designing Machine Members.
9. Theories of Failure Under Static Load.
10. Maximum Principal or Normal Stress Theory(Rankine’s Theory).
11. Maximum Shear Stress Theory(Guest’s or Tresca’s Theory).
12. Maximum Principal Strain Theory (Saint Venant’s Theory).
13. Maximum Strain Energy Theory (Haigh’s Theory).
14. Maximum Distortion Energy Theory (Hencky and Von Mises Theory).
15. Eccentric Loading—Direct and Bending Stresses Combined. 16. Shear Stresses in Beams.
1. Introduction.
2. Completely Reversed or Cyclic Stresses.
3. Fatigue and Endurance Limit.
4. Effect of Loading on Endurance Limit—Load Factor.
5. Effect of Surface Finish on Endurance Limit—Surface Finish Factor.
6. Effect of Size on Endurance Limit—Size Factor.
7. Effect of Miscellaneous Factors on Endurance Limit.
8. Relation Between Endurance Limit and Ultimate Tensile Strength.
9. Factor of Safety for Fatigue Loading.
10. Stress Concentration.
11. Theoretical or Form Stress Concentration Factor.
12. Stress Concentration due to Holes and Notches.
13. Methods of Reducing Stress Concentration.
14. Factors to be Considered while Designing Machine Parts to Avoid Fatigue Failure.
15. Stress Concentration Factor for Various Machine Members.
16. Fatigue Stress Concentration Factor.
17. Notch Sensitivity.18. Combined Steady and Variable Stresses.
19. Gerber Method for Combination of Stresses.
20. Goodman Method for Combination of Stresses.
21. Lederberg Method for Combination of Stresses.
22. Combined Variable Normal Stress and Variable Shear Stress.
23. Application of Lederberg's Equation.
7. Pressure Vessels...224–260
1. Introduction.
2. Classification of Pressure Vessels.
3. Stresses in a Thin Cylindrical Shell due to an Internal Pressure.
4. Circumferential or Hoop Stress.
5. Longitudinal Stress.
6. Change in Dimensions of a Thin Cylindrical Shell due to an Internal Pressure.
7. Thin Spherical Shells Subjected to an Internal Pressure.
8. Change in Dimensions of a Thin Spherical Shell due to an Internal Pressure.
9. Thick Cylindrical Shell Subjected to an Internal Pressure.
10. Compound Cylindrical Shells.
11. Stresses in Compound Cylindrical Shells.
12. Cylinder Heads and Cover Plates.
8. Pipes and Pipe Joints...261–280
1. Introduction.
2. Stresses in Pipes.
3. Design of Pipes.
4. Pipe Joints.
5. Standard Pipe Flanges for Steam.
6. Hydraulic Pipe Joint for High Pressures.
7. Design of Circular Flanged Pipe Joint.
8. Design of Oval Flanged Pipe Joint.
9. Design of Square Flanged Pipe Joint
18. Bolted Joints under Eccentric Loading.
19. Eccentric Load Acting Parallel to the Axis of Bolts.
20. Eccentric Load Acting Perpendicular to the Axis of Bolts.
21. Eccentric Load on a Bracket with Circular Base.
22. Eccentric Load Acting in the Plane Containing the Bolts.
12. Cotter and Knuckle Joints...431–469
1. Introduction.
2. Types of Cotter Joints.
3. Socket and Spigot Cotter Joint.
4. Design of Socket and Spigot Cotter Joint.
5. Sleeve and Cotter Joint.
6. Design of Sleeve and Cotter Joint.
7. Gib and Cotter Joint.
8. Design of Gib and Cotter Joint for Strap End of a Connecting Rod.
9. Design of Gib and Cotter Joint for Square Rods.
10. Design of Cotter Joint to Connect Piston Rod and Cross head.
11. Design of Cotter Foundation Bolt.
12. Knuckle Joint.
13. Dimensions of Various Parts of the Knuckle Joint.
14. Methods of Failure of Knuckle Joint.
15. Design Procedure of Knuckle Joint.
16. Adjustable Screwed Joint for Round Rods (Turn Buckle).
17. Design of Turn Buckle.
13. Keys and Coupling...470–508
1. Introduction.
2. Types of Keys.
3. Sunk Keys.
4. Saddle Keys.
5. Tangent Keys.
6. Round Keys.
7. Splines.
8. Forces acting on a Sunk Key.
9. Strength of a Sunk Key.
10. Effect of Key ways.
11. Shaft Couplings.
12. Requirements of a Good Shaft Coupling.
13. Types of Shaft Couplings.
14. Sleeve or Muff Coupling.
15. Clamp or Compression Coupling.
16. Flange Coupling.
17. Design of Flange Coupling.
18. Flexible Coupling.
19. Bushed Pin Flexible Coupling.
20. Old ham Coupling. 21. Universal Coupling.
14. Shafts...509–557
1. Introduction.
2. Material Used for Shafts.
3. Manufacturing of Shafts.
4. Types of Shafts.
5. Standard Sizes of Transmission Shafts.
6. Stresses in Shafts.
7. Maximum Permissible Working Stresses for Transmission Shafts.
8. Design of Shafts.
9. Shafts Subjected to Twisting Moment Only.
10. Shafts Subjected to Bending Moment Only.
11. Shafts Subjected to Combined Twisting Moment and Bending Moment.
12. Shafts Subjected to Fluctuating Loads.
13. Shafts Subjected to Axial Load in addition to Combined Torsion and Bending Loads.
14. Design of Shafts on the Basis of Rigidity.
23. Springs...820–884
1. Introduction.
2. Types of Springs.
3. Material for Helical Springs.
4. Standard Size of Spring Wire.
5. Terms used in Compression Springs.
6. End Connections for Compression Helical Springs.
7. End Connections for Tension Helical Springs.
8. Stresses in Helical Springs of Circular Wire.
9. Deflection of Helical Springs of Circular Wire.
10. Eccentric Loadingof Springs.
11. Buckling of Compression Springs.
12. Surge in Springs.
13. Energy Stored in Helical Springs of Circular Wire.
14. Stress and Deflection in Helical Springs of Non-circular Wire.
15. Helical Springs Subjected to Fatigue Loading.
16. Springs in Series.
17. Springs in Parallel.
18. Concentric or Composite Springs.
19. Helical Torsion Springs.
20. Flat Spiral Springs.
21. Leaf Springs.
22. Construction of Leaf Springs.
23. Equalized Stresses in Spring Leaves (Nipping).
24. Length of Leaf Spring Leaves.
25. Standard Sizes of Automobile Suspension Springs.
26. Material for Leaf Springs.
24. Clutchces...885–916
1. Introduction.
2. Types of Clutches.
3. Positive Clutches.
4. Friction Clutches.
5. Material for Friction Surfaces.
6. Considerations in Designing a Friction Clutch.
7. Types of Friction Clutches.
8. Single Disc or Plate Clutch.
9. Design of a Disc or Plate Clutch.
10. Multiple Disc Clutch.
11. Cone Clutch.
12. Design of a Cone Clutch.
13. Centrifugal Clutch.
14. Design of a Centrifugal Clutch.
25. Brakes...917–961
1. Introduction.
2. Energy Absorbed by a Brake.
3. Heat to be Dissipated during Braking.
4. Materials for Brake Lining.
5. Types of Brakes.
6. Single Block or Shoe Brake.
7. Pivoted Block or Shoe Brake.
8. Double Blockor Shoe Brake.
9. Simple Band Brake.
10. Differential Band Brake.
11. Band and Block Brake.
12. Internal Expanding Brake.
26. Sliding Contact Bearings...962–995
1. Introduction.
2. Classification of Bearings.
3. Types of Sliding Contact Bearings.
4. Hydrodynamic Lubricated Bearings.
5. Assumptions in Hydrodynamic Lubricated Bearings.
6. Important Factors for the Formation of Thick Oil Film in Hydrodynamic Lubricated Bearings.
7. Wedge Film Journal Bearings.
8. Squeeze Film Journal Bearings.
9. Properties of Sliding Contact Bearing Materials.
10. Materials usedfor Sliding Contact Bearings.
11. Lubricants.
12. Properties of Lubricants.
13. Terms used in Hydrodynamic Journal Bearings.
14. Bearing Characteristic Number and Bearing Modulus for  Journal Bearings.
15. Coefficient of Friction for Journal Bearings.
16. Critical Pressure of the Journal Bearing.
17. Somersetted Number.
18. Heat Generated in a Journal Bearing.
19. Design Procedure for Journal Bearings.
20. Solid Journal Bearing.
21. Bushed Bearing.
22. Split Bearing or Plummer Block.
23. Design of Bearing Caps and Bolts.
24. Oil Grooves.
25. Thrust Bearings.
26. Foot-step or Pivot Bearings.
27. Collar Bearings.
27. Rolling Contact Bearings...996–1020
1. Introduction.
2. Advantages and Disadvantages of Rolling Contact Bearings Over Sliding Contact Bearings.
3. Types of Rolling Contact Bearings.
4. Types of Radial Ball Bearings.
5. Standard Dimensions and Designation of Ball Bearings.
6. Thrust Ball Bearings.
7. Types of Roller Bearings.
8. Basic Static Load Ratingof Rolling Contact Bearings.
9. Static Equivalent Loadfor Rolling Contact Bearings.
10. Life of a Bearing.
11. Basic Dynamic Load Rating of Rolling Contact Bearings.
12. Dynamic Equivalent Load for Rolling Contact Bearings.
13. Dynamic Load Rating for Rolling Contact Bearings under Variable Loads.
14. Reliability of a Bearing.
15. Selection of Radial Ball Bearings.
16. Materials and Manufacture of Ball and Roller Bearings.
17. Lubrication of Ball and Roller Bearings.
28. Spur Gears...1021–1065
1. Introduction.
2. Friction Wheels.
3. Advantages andDisad vantages of Gear Drives.
4. Classification of Gears.5. Terms used in Gears.
6. Condition for Constant Velocity Ratio of Gears–Law of Gearing.
7. Forms of Teeth.
8. Cycloidal Teeth.
9. Involute Teeth.
10. Comparison Between Involute and Cycloidal Gears.
11. Systems of Gear Teeth.
12. Standard Proportions of Gear Systems.
13. Interference in Involute Gears.
14. Minimum Number of Teeth on the Pinion in order to Avoid Interference.
15. Gear Materials.
16. Design Considerations for a Gear Drive.
17. Beam Strength of Gear Teeth-Lewis Equation.
18. Permissible Working Stress for Gear Teeth in Lewis Equation.
19. Dynamic Tooth Load.
20. Static Tooth Load.
21. Wear Tooth Load.
22. Causes of Gear Tooth Failure.
23. Design Procedure for Spur Gears.
24. Spur Gear Construction.
25. Design of Shaft for Spur Gears.
26. Design of Arms for Spur Gears.
29. Helical Gears...1066–1079
1. Introduction.
2. Terms used in Helical Gears.
3. Face Width of Helical Gears.
4. Formative or Equivalent Number of Teeth for Helical Gears.
5. Proportions for Helical Gears. 6. Strength of Helical Gears.
30. Bevel Gears...1080–1100
1. Introduction.
2. Classification of Bevel Gears.
3. Terms used in Bevel Gears.
4. Determination of Pitch Angle for Bevel Gears.
5. Proportions for Bevel Gears.
6. Formative or Equivalent Number of Teeth for Bevel Gears—Tredgold's Approximation.
7. Strength of Bevel Gears. 8. Forces Acting on a Bevel Gear.
9. Design of a Shaft for Bevel Gears.
31. Worm Gears...1101–1124
1. Introduction
2. Types of Worms
3. Types of WormGears.
4. Terms used in Worm Gearing.
5. Proportion sfor Worms.
6. Proportions for Worm Gears.
7. Efficiency of Worm Gearing.
8. Strength of Worm Gear Teeth.
9. Wear Tooth Load for Worm Gear.
10. Thermal Rating of Worm Gearing.
11. Forces Acting on Worm Gears.
12. Design of Worm Gearing.
32. Internal Combustion Engine Parts...1125–1214
1. Introduction.
2. Principal Parts of an I. C. Engine.
3. Cylinder and Cylinder Liner.
4. Design of a Cylinder.
5. Piston.
6. Design Considerations for a Piston.
7. Material for Pistons.
8. Pistion Head or Crown .
9. Piston Rings.
10. Piston Skirt.
12. Piston Pin.
13. Connecting Rod.
14. Forces Acting on the Connecting Rod.
15. Design of Connecting Rod.
16. Crankshaft.
17. Material and Manufacture of Crankshafts.
18. Bearing Pressure and Stresses in Crank shafts.
19. Design Procedure for Crankshaft.
20. Design for Center Crank shaft.
21. Side or Overhung Crank shaft.
22. Valve Gear Mechanism.
23. Valves.
24. Rocker Arm.
Index...1215–1230


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مُساهمةموضوع: رد: كتاب Textbook of Machine Design - by R.S. Khurmi, J.K. Gupta    الخميس 05 أبريل 2012, 9:07 am

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