Max Shear Stress Homework: Find Max Stress

In summary, max shear stress is the maximum stress that occurs in a material when it is subjected to shear forces. It is calculated using the formula τmax = (3/2) * τ and is affected by the type of material, with brittle materials having a lower max shear stress compared to ductile materials. Finding the max shear stress is important for understanding the strength and durability of a material and is crucial in designing safe structures and machinery.
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Homework Statement


Find the maximum shear stress for [tex]\sigma _{xx} = 120 MN/m^2, \sigma _{yy} = 50 MN/m^2, \tau _{xy} = 40 MN/m^2[/tex]

Homework Equations


[tex]\sigma _{min} = 0.5(\sigma _{xx}+\sigma _{yy})-0.5((\sigma _{xx}-\sigma _{yy})^2+4\tau _{xy} ^2 )^{0.5} = 31.8[/tex]
[tex]\sigma _{max} = 0.5(\sigma _{xx}+\sigma _{yy})+0.5((\sigma _{xx}-\sigma _{yy})^2+4\tau _{xy} ^2 )^{0.5} = 138.2[/tex]

The Attempt at a Solution


[tex]0.5(\sigma _{max} - \sigma _{min}) = 53.1[/tex] 4. Problem
However, the correct answer states [tex]0.5(\sigma _{max} - 0) = 69.1[/tex]. Why is [tex]0[/tex] taken as the minimum shear stress?
 
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Hint: the real world has a z axis as well.
 

1. What is max shear stress?

Max shear stress is the maximum stress that occurs in a material when it is subjected to shear forces. It represents the maximum amount of force that can be applied to the material before it starts to deform or fail.

2. How is max shear stress calculated?

Max shear stress can be calculated using the formula τmax = (3/2) * τ, where τ is the shear stress acting on the material. This formula assumes that the material is in a state of pure shear stress.

3. What are some common examples of shear stress?

Some common examples of shear stress include cutting or shearing actions, such as when a scissors cuts through paper, or when a saw cuts through wood. Shear stress also occurs in structural components, such as beams and bridges, where the weight of the structure creates shear forces.

4. How does the type of material affect the max shear stress?

The type of material can greatly affect the max shear stress it can withstand. For example, brittle materials, such as glass, have a lower max shear stress compared to ductile materials, such as steel. This is because brittle materials are more prone to cracking and breaking under shear forces.

5. Why is it important to find the max shear stress?

It is important to find the max shear stress in a material because it helps engineers and scientists understand the strength and durability of the material. This information is crucial in designing and constructing safe and reliable structures and machinery.

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