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Lecture 17 - Design of Reinforced Concrete Beams for Shear

Lecture Goals. Stirrup Design. Uncracked Elastic Beam Behavior. Look at the shear and bending moment diagrams. The acting shear stress distribution on the beam.. Uncracked Elastic Beam Behavior. The acting stresses distributed across the cross-section. . The shear stress acting on the rectangular beam..

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Lecture 17 - Design of Reinforced Concrete Beams for Shear

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    1. Lecture 17 - Design of Reinforced Concrete Beams for Shear November 1, 2001 CVEN 444

    3. Uncracked Elastic Beam Behavior

    4. Uncracked Elastic Beam Behavior

    5. Uncracked Elastic Beam Behavior

    6. Uncracked Elastic Beam Behavior

    7. Uncracked Elastic Beam Behavior

    8. Uncracked Elastic Beam Behavior

    9. Inclined Cracking in Reinforced Concrete Beams

    10. Inclined Cracking in Reinforced Concrete Beams

    11. Inclined Cracking in Reinforced Concrete Beams

    12. Inclined Cracking in Reinforced Concrete Beams

    13. Shear Strength of RC Beams without Web Reinforcement

    14. Strength of Concrete in Shear (No Shear Reinforcement)

    15. Strength of Concrete in Shear (No Shear Reinforcement)

    16. Strength of Concrete in Shear (No Shear Reinforcement)

    17. Function and Strength of Web Reinforcement

    18. Function and Strength of Web Reinforcement Uncracked Beam Shear is resisted uncracked concrete. Flexural Cracking Shear is resisted by vcz, vay, vd

    19. Function and Strength of Web Reinforcement Flexural Cracking Shear is resisted by vcz, vay, vd and vs

    20. Designing to Resist Shear

    21. Shear Strength Provided by Concrete

    22. Lightweight Concrete: Shear Strength Provided by Shear Reinforcement

    23. Lightweight Concrete: Shear Strength Provided by Shear Reinforcement

    24. Typical Shear Reinforcement

    25. Typical Shear Reinforcement

    26. Stirrup Anchorage Requirements

    27. Design Procedure for Shear

    28. Design Procedure for Shear

    29. Design Procedure for Shear

    30. Design Procedure for Shear

    31. Design Procedure for Shear

    32. Location of Maximum Shear for Beam Design

    33. Location of Maximum Shear for Beam Design

    34. Location of Maximum Shear for Beam Design

    35. Example: Design of Stirrups to Resist Shear

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