Why is the direction of shear stress important in pure shear stress?

In summary, according to the book, the shear stress should have pointed this way(above), IMO, they can also point as this way (below) , which means it can be anticlockwise or clockwise direction.
  • #1
chetzread
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1

Homework Statement


In my book, I was told that when an element is subjected to pure shear stress, equalibrium required that equal shear stress must be developed on four sides of the element...these stresses must be direct toward or away from opposite corners of element..

Homework Equations

The Attempt at a Solution


i think that is wrong... Why must them direct toward or away from opposite corners of element..?
there's no reason why they must be direct toward or away from opposite corners of element..
 
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  • #2
From equilibrium considerations, which way would you have them point?
 
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  • #3
PhanthomJay said:
From equilibrium considerations, which way would you have them point?
According to the book, the shear stress should have pointed this way(above), IMO, they can also point as this way (below) , which means it can be anticlockwise or clockwise direction
 

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  • #4
The above is the convention for positive shear. Reversing it is negative shear.
 
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  • #5
PhanthomJay said:
The above is the convention for positive shear. Reversing it is negative shear.
do you mean when the orientation is clockwise or anticlockwise . they are considered as negative shear?
 
  • #6
No .

The shears have to be in pairs pointing to opposite corners of the square to maintain equilibrium . If they are all going clockwise or all anticlockiwise then they would generate a torque which would rotate the square about it's centre .
 
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  • #7
Nidum said:
No .

The shears have to be in pairs pointing to opposite corners of the square to maintain equilibrium . If they are all going clockwise or all anticlockiwise then they would generate a torque which would rotate the square about it's centre .
that's weird . I have an example here , stating that shear stress in clockwise direction is positive ...
 

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  • #10
The notes are correct but all they do is tell you the direction conventionally taken as positive for shear stress .

Perhaps you have not understood that pure shear stress that you have asked about is a special case ? Note word irrotational in the above Wikipedia article .
 
  • #11
Nidum said:
The notes are correct but all they do is tell you the direction conventionally taken as positive for shear stress .

Perhaps you have not understood that pure shear stress that you have asked about is a special case ? Note word irrotational in the above Wikipedia article .
Yes, but the case that I attached earlier inpost #7 is rotational , right? How could that be?
 

Related to Why is the direction of shear stress important in pure shear stress?

What is shear stress and how is it different from normal stress?

Shear stress is a type of stress that occurs when forces are applied parallel to each other in opposite directions, causing the material to deform or slide. This is different from normal stress, which occurs when forces are applied perpendicular to each other.

How is the direction of shear stress determined?

The direction of shear stress is determined by the direction of the applied forces and the orientation of the material. In 2-dimensional cases, shear stress is perpendicular to the normal stress and parallel to the direction of the applied forces.

What are the effects of shear stress on materials?

Shear stress can cause materials to deform, break, or fail. It can also result in changes in the material's shape, such as bending or twisting.

How is shear stress calculated?

Shear stress is calculated by dividing the applied force by the cross-sectional area of the material. This is also known as shear strength and is measured in units of force per unit area (such as Pascals or pounds per square inch).

What are some real-world applications of shear stress?

Shear stress is an important concept in engineering and material science. It is used to design and analyze structures, such as bridges and buildings, to ensure they can withstand applied forces. Shear stress is also relevant in fields such as geology, where it can contribute to the formation of faults and earthquakes.

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