Von Mises & Trescas Yield Criterion Example 
Von Mises & Trescas Yield Criterion Example
by SpoonFeedMe
Video Lecture 2 of 67
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Date Added: July 18, 2015

Lecture Description

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This video presents a comprehensive example of Von Mises’ and Tresca’s yield criterion under the combined stresses. Given the same schematic of exemplary element with normal and shear stresses described before, the video for a given value of yield stress asks to check if the given element under combined action yielded according to Tresca or Von Mises’ yield criterion theory. The video recalls the earlier described formulas of Tresca’s and Von Mises’ yield criterion for doing the calculation.

Moving on, the video first shows the calculation of yielding under Tresca’s theory and finds that the element is yielded under combined action. Next, the video shows the yielding calculation under Von Mises theory & finds that the element does not yielded under the combined action. Later, the video clears the fact that why this difference has happened by doing a brief comparison of Von Mises’ and Tresca’s yield criterion theory explaining all the facts and figures in greater details.

Course Index

  1. Mohr's Circle Example
  2. Von Mises & Trescas Yield Criterion Example
  3. Von Mises Yield Criterion
  4. Tresca's Yield Criterion
  5. Mohr's Circle Summary Example
  6. Combined, Normal and Shear Stress Example
  7. Mohr's Circle Equations & Theory
  8. Combined Shear Stress & Mohr's Circle
  9. Analysis of Combined Stress
  10. Closed Pipe, Hoop and Longitdunal Stress Pressure Vessel Example
  11. Open Pipe, Hoop and Longitdunal Stress Pressure Vessel Example
  12. Longitudinal Stresss in Pressure Vessels
  13. Hoop & Cylinder Stress in Pressure Vessels
  14. Cantilever Beam with Point Load at Free Edge Deflection Example
  15. Cantilever Beam with Moment at Free Edge Deflection Example
  16. Cantilever Beam Deflection Example
  17. Simply Supported Beam Deflection Example
  18. Beam Delfection Equations
  19. Beam Deflection Theory
  20. Torque & Torsion Summary Example
  21. Torsion on a Non-Circular Shaft Example
  22. Uniform Torque on a Cylindrical Shaft Example
  23. Torsion and Torque Equations
  24. Torsion Shear Strain and Stress Distributions
  25. Method of Transformed Sections (Beams of 2 Materials) Steel a
  26. Method of Transformed Sections (Beams of 2 Materials) Reinforced
  27. Method of Transformed Sections (Beams of 2 Materials) Reinforced
  28. Method of Transformed Sections (Beams of 2 Materials) Timber Beam Example
  29. Method of Transformed Sections (Beams of 2 Materials) Example
  30. Method of Transformed Sections (Beams of 2 Materials)
  31. Beam Composite Actions: Stress and Strains
  32. I-beam Centroid, Second Moment of Area (I-Value), Stress & Strai
  33. Example 8 Centroid Hollow section, I Value + Stresses due to bending
  34. C-Section Stress & Strain Distributions from Bending
  35. I-Beam Stress & Strain Distributions from Bending
  36. Bending of Beams: Stress & Strain Distributions (about y-axis)
  37. Bending of Beams: Stress & Strain Distributions
  38. Channel Section Centroid & Second Moment of Area (I value) Example
  39. Second Moment of Area (Iy value) of Band Beam Example
  40. Second Moment of Area (Ix value) of Band Beam Example
  41. Centroid of Band Beam Example
  42. Centroid of I-Beam Example
  43. Axial Loading & Temperature Effects
  44. Axial Loading of a Composite Structural Member
  45. Axial Loading Example
  46. Stress & Strain: Non Linear, Ductile and Brittle Behaviour
  47. Stress & Strain Diagram
  48. Strain & Poisson's Ratio
  49. Normal & Shear Stress
  50. Stress, Strain, Strength, Stiffness & Defomation
  51. Twisting Moment Diagram Example
  52. Example 5: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
  53. Example 5: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
  54. Example 4: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
  55. Example 4: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
  56. Example 3: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
  57. Example 3: Axial Force, Shear Force and Bending Momemt Diagram (1/2)
  58. Example 2: Axial Force, Shear Force and Bending Momemt Diagram (2/2)
  59. Axial Force, Shear Force and Bending Momemt Diagram Example 2 (1/2)
  60. Axial Force, Shear Force and Bending Momemt Diagram Example 1
  61. Relationships Between Bending, Shear and Axial Forces
  62. Axial Force Diagram, Shear Force Diagram & Bending Moment Diagram
  63. Equilibrium & Free Body Diagram Example 2
  64. Equilibrium & Free Body Diagram Example 1
  65. Equilibrium & Free Body Diagrams
  66. Loads, Transfer of Forces & Supports
  67. 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.

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