Calculating Welded Area and Rivet Diameter for Shear Stress - Homework Solution

AI Thread Summary
The discussion focuses on calculating the welded area width at point B and the diameter of rivets for a structure subjected to a force of 6000 N. Participants emphasize the importance of first determining end reactions before calculating weld stresses, noting that the lengths used in calculations should pertain to the overall weld length rather than overhangs. Clarifications are made regarding the application of vertical shear equations and the summation of forces and moments to find the correct values. The conversation highlights the need for accurate interpretations of technical mechanics principles in solving the problem. Ultimately, the participant acknowledges their mistake and indicates progress in solving the shearing calculations.
Femme_physics
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Homework Statement


The depicted construct is made of a rod with a square cross-section and two plates. The plates are jointed together through 4 similar rivets. The square rod is welded to the wall at "B" and to the plates at the other end through peripheral corner welds.

On the board acts an external force F = 6000 [N]

A) Calculate the needed width of the welded area at B
B) The rivets' diameter.

Given:

Allowable stress at welded area = 80 MPa
Allowable shearing stress at the rivet = 60 MPa
Allowable local compression at the rivets = 100 MPahttp://img202.imageshack.us/img202/5481/lookad.jpg

Homework Equations



http://img39.imageshack.us/img39/6965/equationssss.jpg

The Attempt at a Solution



Can it be ths simple??

http://img845.imageshack.us/img845/6205/solsssss.jpg
 
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The equation for vertical shear in the weld is simple enough, but you are not applying it correctly. You should first calculate the end reactions before determining weld stresses. There will be a shear load, a bending moment, and a torsional moment. For the vertical shear , your value of the vertical reaction is correct, but you are incorrectly summing your l's. The l's are not related to the overhang length. They relate to the overall weld length at B.
 
What do you mean by end reaction? Technical mechanics? Sum of all forces = 0?

your value of the vertical reaction is correct, but you are incorrectly summing your l's. The l's are not related to the overhang length. They relate to the overall weld length at B.

Hmm, I think I see what you're saying

My "l" should be 800 + 80 + 80 + 80 + 80

Since it's square shaped
 
Femme_physics said:
What do you mean by end reaction? Technical mechanics? Sum of all forces = 0?
At B, use sum of all forces acting vertical on the beam = 0 , to solve for the vertical end reaction at B. Use sum of all moments about an axis running thru B out of the plane of the paper to solve for the bending moment at B. Use sum of moments about an axis passing thru B along the length of the beam to solve for the torsional moment at B.
Hmm, I think I see what you're saying

My "l" should be 800 + 80 + 80 + 80 + 80

Since it's square shaped
why the extra 800?
 
Thank you, noticed my mistake. Solved it for shearing :)
 
Thread 'Have I solved this structural engineering equation correctly?'

Thread 'Have I solved this structural engineering equation correctly?'

Hi all, I have a structural engineering book from 1979. I am trying to follow it as best as I can. I have come to a formula that calculates the rotations in radians at the rigid joint that requires an iterative procedure. This equation comes in the form of: $$ x_i = \frac {Q_ih_i + Q_{i+1}h_{i+1}}{4K} + \frac {C}{K}x_{i-1} + \frac {C}{K}x_{i+1} $$ Where: ## Q ## is the horizontal storey shear ## h ## is the storey height ## K = (6G_i + C_i + C_{i+1}) ## ## G = \frac {I_g}{h} ## ## C...
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