Shear force

In some situations I heard normal force exerts shear stress,can anyone explain such instances and why it occurs?

Posted - July 11, 2018

Responses


  • 7280
    A normal force is not some esoteric type of force---it is simply a force whose direction is perpendicular to a surface.

    Shearing forces are unaligned forces pushing one part of a body in one specific direction, and another part of the body in the opposite direction. When the forces are aligned into each other, they are called compression forces.

    Two normal forces in opposite directions and not directly aligned along the same axis will cause shear forces.

    If they are aligned, they are compression forces.
      July 11, 2018 11:43 PM MDT
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  • 2

    In this case it seems shear force acts in the collar can u explain it This post was edited by Venkata at July 12, 2018 2:06 AM MDT
      July 12, 2018 2:06 AM MDT
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  • 5835
    You are pushing down in the middle and the anvil is pushing up at the sides. Forces are in opposite directions but not aligned. By definition, that is shear force. "Shear" means like it might be cut or torn if the force is great enough.
      July 18, 2018 8:25 PM MDT
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  • 5835

    Unlike shear force, Shear stress acts in a parallel to the surface. ... It is termed as the ratio between force applied (F) to the cross sectional area (A) of the beam/structure. Shear stress acts in perpendicular direction to the normal stress applied on the material.
    Definition of Shear Force And Shear Stress | Chegg.com
    https://www.chegg.com/homework-help/definitions/shear-force-and-shear-stress-5

     

    I don't seem to understand what that means in a practical application.

      July 12, 2018 12:00 AM MDT
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  • 3719
    Stress is applied force per unit area.

    If the force is normal to a surface, it is perpendicular to it.

    To every force is an equal and opposite reaction when nothing moves as a result: such as a brick resting on a concrete floor.

    Shear stress occurs when the two opposing forces are not in line with each other. A simple example would occur if you put that brick on the edge of a table, outside of the table legs. There, the legs provide the reaction to stop the brick crushing the table, but as they are not below the brick, the overhang is subject to a shearing force concentrated along the top edge of the leg. 


    That simplifies a bit as it ignores the stress conditions within the overhanging area (the "cantilever") of table-top, trying to bend it; but essentially a shear is the result of two forces acting parallel to, but out of line with, each other
      July 18, 2018 5:10 PM MDT
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