Compression and bending on a cross section,how to make sure its static

AI Thread Summary
The discussion centers on analyzing a rectangular steel cross-section under bending and compression, focusing on ensuring static equilibrium. The initial approach to equilibrium equations is questioned, particularly regarding the relationship between compressive and tensile forces. A corrected equation is proposed, emphasizing that the axial force from tension must equal the axial force applied to the section. A clarification is made regarding a typo in the equations, specifying the correct terms to use. Understanding these dynamics is crucial for accurate structural analysis.
cesaramorim
Messages
2
Reaction score
0
The problem is the following, i have a rectangle as a cross section of steel, which is bended and compressed.. i want to use the equilibrium equations to make sure its static, but since the compressive force and the traction force aren't equal, the equilibrium equations make no sense

here's a diagram explaining it

http://imageshack.us/photo/my-images/341/6p7g.jpg/

Uploaded with ImageShack.us

Thanks for reading
 
Last edited by a moderator:
Engineering news on Phys.org
cesaramorim: No, I think your first equation instead should be, N = Fc - Ft.

And your second equation should not contain two plus signs.
 
Last edited:
that's exactly it, because if you have axial force on the bend, it can't be 0, instead, the sum of axial forces caused by tension must equal the axial force applied on the section, i was misunderstunding with pure bending on concrete structures where that equation is valid because N is 0 in that case.

thank you very much

ps: yes the second equation has a typo, it means Fc*d1, instead of Fc+d1
 
Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Scenario 1 (figure 1) A continuous loop of elastic material is stretched around two metal bars. The top bar is attached to a load cell that reads force. The lower bar can be moved downwards to stretch the elastic material. The lower bar is moved downwards until the two bars are 1190mm apart, stretching the elastic material. The bars are 5mm thick, so the total internal loop length is 1200mm (1190mm + 5mm + 5mm). At this level of stretch, the load cell reads 45N tensile force. Key numbers...
View full post »

Thread 'Thread No-Go plug gage allows 3 turns to enter. That's too many!'

After over 25 years of engineering, designing and analyzing bolted joints, I just learned this little fact. According to ASME B1.2, Gages and Gaging for Unified Inch Screw Threads: "The no-go gage should not pass over more than three complete turns when inserted into the internal thread of the product. " 3 turns seems like way to much. I have some really critical nuts that are of standard geometry (5/8"-11 UNC 3B) and have about 4.5 threads when you account for the chamfers on either...
View full post »

Similar threads

Engineering Analyzing Shear & Bending on Idealized Cross Section
Replies
4
Views
2K
How Can We Calculate the Fatigue Life of a Simply-Supported Beam?
Replies
6
Views
3K
How do I calculate forces in a truss cross section?
Replies
2
Views
586
How to deal with non uniform cross section bending?
Replies
4
Views
33K
Bending of tapered (nonsymmetric) beams
Replies
3
Views
6K
How do I calculate the bending energy for a cross-linked beam network?
Replies
3
Views
13K
Euler-Bernoulli bending moment equation, how do you know it's right?
Replies
8
Views
6K
Huge pressure drop after changing pipe length (Don't think it's loss)
Replies
13
Views
4K
How do I calculate the bending moment in a beam for my ramp design?
Replies
2
Views
4K
Analyzing the Mechanics of a Wobble Plate in a Cranked Axle Mechanism
Replies
10
Views
3K

Hot Threads

Recent Insights

Back
Top