
Lecture Description
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The objective of this video is to give an overview on combined stresses followed by the analysis of combined stresses. First part of the video asks to consider an element loaded in pure tension having no horizontal strains, only the vertical strains. Next, the video asks to consider a rhomboid element oriented at 45 degree angles, the corners which coincide with the midpoint of the element already being considered. Moving on, the video briefly talks about the shear strain & deformation followed by the discussion on combined stresses in greater details.
Second part of the video shows an analysis of combined stresses with respect to a rectangular block rotating in anticlockwise direction. Moving next, the video shows the stresses distributions over the block & derives the equation of combining stresses using the principle of equilibrium under certain condition. Later, the video briefly talks about combined stresses at different conditions and thereby does a comprehensive analysis on combined stresses.
Course Index
- Mohr's Circle Example
- Von Mises & Trescas Yield Criterion Example
- Von Mises Yield Criterion
- Tresca's Yield Criterion
- Mohr's Circle Summary Example
- Combined, Normal and Shear Stress Example
- Mohr's Circle Equations & Theory
- Combined Shear Stress & Mohr's Circle
- Analysis of Combined Stress
- Closed Pipe, Hoop and Longitdunal Stress Pressure Vessel Example
- Open Pipe, Hoop and Longitdunal Stress Pressure Vessel Example
- Longitudinal Stresss in Pressure Vessels
- Hoop & Cylinder Stress in Pressure Vessels
- Cantilever Beam with Point Load at Free Edge Deflection Example
- Cantilever Beam with Moment at Free Edge Deflection Example
- Cantilever Beam Deflection Example
- Simply Supported Beam Deflection Example
- Beam Delfection Equations
- Beam Deflection Theory
- Torque & Torsion Summary Example
- Torsion on a Non-Circular Shaft Example
- Uniform Torque on a Cylindrical Shaft Example
- Torsion and Torque Equations
- Torsion Shear Strain and Stress Distributions
- Method of Transformed Sections (Beams of 2 Materials) Steel a
- Method of Transformed Sections (Beams of 2 Materials) Reinforced
- Method of Transformed Sections (Beams of 2 Materials) Reinforced
- Method of Transformed Sections (Beams of 2 Materials) Timber Beam Example
- Method of Transformed Sections (Beams of 2 Materials) Example
- Method of Transformed Sections (Beams of 2 Materials)
- Beam Composite Actions: Stress and Strains
- I-beam Centroid, Second Moment of Area (I-Value), Stress & Strai
- Example 8 Centroid Hollow section, I Value + Stresses due to bending
- C-Section Stress & Strain Distributions from Bending
- I-Beam Stress & Strain Distributions from Bending
- Bending of Beams: Stress & Strain Distributions (about y-axis)
- Bending of Beams: Stress & Strain Distributions
- Channel Section Centroid & Second Moment of Area (I value) Example
- Second Moment of Area (Iy value) of Band Beam Example
- Second Moment of Area (Ix value) of Band Beam Example
- Centroid of Band Beam Example
- Centroid of I-Beam Example
- Axial Loading & Temperature Effects
- Axial Loading of a Composite Structural Member
- Axial Loading Example
- Stress & Strain: Non Linear, Ductile and Brittle Behaviour
- Stress & Strain Diagram
- Strain & Poisson's Ratio
- Normal & Shear Stress
- Stress, Strain, Strength, Stiffness & Defomation
- Twisting Moment Diagram Example
- Example 5: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
- Example 5: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
- Example 4: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
- Example 4: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
- Example 3: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
- Example 3: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
- Example 2: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
- Axial Force, Shear Force and Bending Momemt Diagram Example 2 (1/2)
- Axial Force, Shear Force and Bending Momemt Diagram Example 1
- Relationships Between Bending, Shear and Axial Forces
- Axial Force Diagram, Shear Force Diagram & Bending Moment Diagram
- Equilibrium & Free Body Diagram Example 2
- Equilibrium & Free Body Diagram Example 1
- Equilibrium & Free Body Diagrams
- Loads, Transfer of Forces & Supports
- Simply Supported Beam Deflection from Loading Function Example
Course Description
This course builds on the concept of force and moment equilibrium learnt from first year engineering mechanic and physics courses and focuses on the internal actions and deformations experienced by simple structural members under loading. Concepts learnt in the course such as load transfer through axial, shear, bending and torsion as well as stress and strain relationships are the foundation for further study in any structural engineering related courses.