Load and Stress Analysis
Beam Shear and Moment Analysis
Mechanical Stress
- Mechanical Stress
- Cartesian Stress Components
- Stress Tensors
- Plane Stress
- Plane Stress Transformation
- Mohr’s Circle
- Generalized 3D Stress
General Stress and Strain
- Axial Load
- Elastic Strain
- Direct Shear Stress
- Pure Shear Stress + Shear Strain
- Elastic Strain
- Elastic Constants
Stress for Beam Bending
- Normal Stresses for Beams in Bending
- Two-Plane Bending
- Shear Stresses for Beams in Bending
- Shear Flow
Torsion
- Torsion
- Torsion for Rectangular Sections
- Polar Moment of Inertia
- Shaft Torque, Power, and Speed
- Closed Thin-Walled Tubes
- Open Thin-Walled Sections
- Stress Concentration
Deflection and Stiffness
- Spring Rate
- Beam Tension, Compression and Torsion
- Beam Deflection Due to Bending
- Equation of Elastic Curve
- Statically Indeterminate Beams
- Beam Deflections with Superposition Method
Failures from Static Loading (Yield)
Ductile Failure Theories
- Failure Theories for Ductile Materials
- Maximum Shear Stress Theory
- Distortion Energy Theory
- Coulomb-Mohr Theory
Brittle Failure Theories
- Failure Theories for Brittle Materials
- Maximum Normal Stress Theory
- Brittle Coulomb-Mohr Theory
- Modified Mohr Theory
Failures from Dynamic Loading (Fatigue)
- Fatigue Failure
- Fatigue-Life Methods
- Stress-Life Method
- Fatigue Design Criteria
- Endurance Limit Modifying Factors
- Stress Concentration for Dynamic Conditions
- Notch Sensitivity
Shaft Design
Machine Design
- Kinematics Fundamentals
- Kinematic Chain
- Gruebler’s Equation + Kutzbach’s Modification
- Grashof Condition
Position Analysis
Dynamics + Inverse Dynamics
- Mass Moment of Inertia
- Dynamic Force Analysis
- Force Analysis of Single Link
- Force Analysis of Fourbar Linkage
- Force Analysis of Crank-Slider Linkage