Engineering Calculating the Factor of Safety

  • Thread starter Thread starter Brinkley23
  • Start date Start date
  • Tags Tags
    Safety
AI Thread Summary
The discussion focuses on calculating the Factor of Safety (FOS) for a 16mm diameter bolt under an 8KN force. The user has determined the direct stress to be 34.47 MPa and the shear stress to be 19.90 MPa. Using the ultimate tensile stress of 500 MN/m² and ultimate shear stress of 300 MN/m², the FOS for tension is calculated as 14.5 and for shear as 15.08. The user questions whether these values are too high and seeks clarification on which FOS is more critical for determining the bolt's failure risk under increased load. The smallest FOS indicates the more likely failure mode, emphasizing the importance of shear stress in this scenario.
Brinkley23
Messages
12
Reaction score
1
Homework Statement
Ultimate Tensile stress = 500NM/m2 and Ultimate Shear stress = 300MN/m2, determine the FOS
Relevant Equations
Direct stress worked out to be 34.47mPa
Shear stress worked out to be 199mPa
Hi,

I need to work out the FOS for a 16mm diameter bolt with a force of 8KN exerted on it.

I have already worked out:
direct stress = 34.47mPa
shear stress = 199mPa

Information given:
Ultimate Tensile stress = 500NM/m2
Ultimate Shear stress = 300MN/m2

The FOS calculation I have been given to work this out is - Maximum allowable stress / stress

Would I use the Ultimate tensile stress (500) as the maximum allowable stress value? and the direct stress value (34.47) giving me a FOS of:

FOS: 500/34.47 = 14.51

Many Thanks!
 
Physics news on Phys.org
Is the factor of safety in shear smaller of greater than in tension (the one you calculated)? What does this tells you?
 
Thanks for replying,

Would I be calculating that by taking the Ultimate shear stress (300N) and the shear stress (199mPa)?

Assuming yes, FOS 300/199 = 1.51

FOS tensile - 14.51
FOS shear - 1.51

It asks me to determine the factor of safety in operation?
 
So you have two FOS, one in shear, one in tension. Based on those values, do you think your bolt has more chances of breaking in shear or tension? If you increase the load on the bolt, which FOS will be going below 1 first? Answering those questions will tell you which one is your crucial FOS.
 
  • Like
Likes Brinkley23 and Lnewqban
That makes sense...but I think I made an error with original workings out.

My full revised workings are below:

Tensile stress (direct force/area)

6928 / 2.01 x 10∧-4 = 34467661.7 Pa (34.47 MPa)

Shear stress (shear force/area)

4000 / 2.01 x 10∧-4 = 19900498 Pa (19.90 MPa)

TASK - "Determine the Factor of Safety in Operation, assuming that" -
- Ultimate tensile stress is 500MN/m2
- Ultimate shear stress is 300MN/m2

My answers based on the values above and using the calculation (max allowable stress/stress):

FOS (tensile) = 500/34.47 = 14.5
FOS (shear) = 300/19.9 = 15.08

...they just seem too high to me? but I KNOW NOTHING! haha

Thanks again if you do cast your eyes over this!
 
Can anyone please say if he got this write?
 
According to the values given, those are the FOS for each case. The smallest one would be the determining FOS.
 

Similar threads

Loaded Components Two Factors of Safety
Replies
3
Views
3K
How Do You Calculate Factor of Safety for a Steel Bolt in Tension and Shear?
Replies
7
Views
7K
Shear and Tensile force with factor of safety
Replies
4
Views
11K
Calculate Factor of Safety for Tensile & Shear Stress - Ben
Replies
1
Views
2K
Engineering Machine Elements: are both of these constructions basically the same?
Replies
8
Views
1K
Find the principal stresses in a shaft with torque applied
Replies
2
Views
3K
Help with Factor Of Safety (FOS) in Bolt Shear problem
Replies
29
Views
5K
Strength of material in hollow shaft torque and safety factor
Replies
5
Views
5K
Answer: Factor of Safety for Bolt Shear & Tensile Stress
Replies
1
Views
6K
Working out maximum stress and Factor of safety
Replies
18
Views
7K

Hot Threads

Recent Insights

Back
Top