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Engineering
Mechanical Engineering
Machine Design and Mechanisms
1. Introduction to Machine Design
2. Fundamentals of Kinematics
3. Kinematic Analysis of Mechanisms
4. Design and Analysis of Specific Mechanisms
5. Dynamics of Machinery
6. Vibrations in Machinery
7. Stress, Strain, and Deflection Analysis
8. Failure Prevention
9. Design of Mechanical Elements
Failure Prevention
Static Failure Theories
For Ductile Materials
Maximum-Shear-Stress Theory
Distortion-Energy Theory
Comparison and Applications
For Brittle Materials
Maximum-Normal-Stress Theory
Modified-Mohr Theory
Coulomb-Mohr Theory
Combined Loading Applications
Design Equations
Safety Factor Implementation
Fatigue Failure
Fatigue Fundamentals
Fatigue Process
Crack Initiation and Propagation
Fatigue Life Phases
S-N Diagrams
Construction and Interpretation
Material Variations
Statistical Considerations
Endurance Limit
Factors Affecting Endurance Limit
Surface Finish
Size Effects
Loading Type
Temperature
Reliability
Fatigue Strength
Modifying Factors
Stress Concentration Effects
Mean Stress Effects
Fatigue Life Estimation
High-cycle Fatigue
Low-cycle Fatigue
Cumulative Damage
Miner's Rule
Fatigue Failure Criteria for Fluctuating Stress
Goodman Criterion
Gerber Criterion
Soderberg Criterion
ASME Elliptic Criterion
Modified Goodman Diagram
Design Line Construction
Fracture Mechanics
Linear Elastic Fracture Mechanics
Stress Intensity Factor
Crack Growth Analysis
Paris Law
Surface Failure
Surface Wear
Adhesive Wear
Abrasive Wear
Corrosive Wear
Fatigue Wear
Pitting and Spalling
Causes and Prevention
Surface Fatigue
Corrosion
Types of Corrosion
Galvanic Corrosion
Protection Methods
Contact Stresses
Hertzian Contact Theory
Point Contact
Line Contact
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7. Stress, Strain, and Deflection Analysis
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9. Design of Mechanical Elements