Effective area for compression versus tension of a link?

AI Thread Summary
Link BD is in tension and requires the use of the effective area calculated as the Total Area minus the pin diameter for normal stress, while link CE is in compression and uses the Total Area. The loading conditions differ: link BD experiences tensile forces pulling outward, while link CE has compressive forces pushing inward. This results in different stress distributions, as the maximum average normal stress in compression does not occur at the pin, unlike in tension. Understanding the effective area is crucial for accurate stress calculations in these links. The discussion emphasizes the importance of recognizing how loading conditions affect stress analysis in structural links.
joahe
Messages
6
Reaction score
0
Thread moved to HH from the technical forums, so no HH Template is shown
upload_2015-10-20_12-44-1.png

I solved the equilibrium equations and found that link BD is in tension while link CE is in compression, but my resulting answers for normal stress were wrong.

The solutions show that the cross area to be used for normal stress at links BD and CE should be different. Link BD should incorporate the (Total Area - Pin Diameter) while link CE incorporates the Total Area.

Why is this true?
 
Engineering news on Phys.org
For the A & D link the loading of both pins are pulling toward the outer ends of the link with only the tensile strength of the two areas on each side of each pin resisting the load.

For the C & E link both pins are pushing toward the center of the link, so they are actually trying to compress the area between the C & E pins.
 
  • Like
Likes billy_joule
The maximum value of the average normal stress doesn't occur in the pin for the link in compression like it does for the link in tension.
 
Would you mind explaining that what is the total area here being referred to?
 

Thread 'Bubble formation in 4 mm gap vessel'

How did you find PF?: Via Google search Hi, I have a vessel I 3D printed to investigate single bubble rise. The vessel has a 4 mm gap separated by acrylic panels. This is essentially my viewing chamber where I can record the bubble motion. The vessel is open to atmosphere. The bubble generation mechanism is composed of a syringe pump and glass capillary tube (Internal Diameter of 0.45 mm). I connect a 1/4” air line hose from the syringe to the capillary The bubble is formed at the tip...
View full post »
Thread 'What type of toilet do I have?'

Thread 'What type of toilet do I have?'

I was enrolled in an online plumbing course at Stratford University. My plumbing textbook lists four types of residential toilets: 1# upflush toilets 2# pressure assisted toilets 3# gravity-fed, rim jet toilets and 4# gravity-fed, siphon-jet toilets. I know my toilet is not an upflush toilet because my toilet is not below the sewage line, and my toilet does not have a grinder and a pump next to it to propel waste upwards. I am about 99% sure that my toilet is not a pressure assisted...
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

Stress in a rod with a hole for pin-joint
Replies
3
Views
3K
Normal Stress: Compression vs Tension
Replies
8
Views
8K
Hyperelasticity - Mooney-Rivlin stress equation
Replies
5
Views
2K
I Von Mises stress and real failures: Triaxial tension
Replies
4
Views
2K
What is the ultimate internal stress of silica aerogels in compression mode?
Replies
2
Views
394
Finding the Force P from Normal Stress
Replies
3
Views
6K
Problem involving space elevators
Replies
19
Views
2K
What Material and Diameter Should a Rod Be to Support a 40 lb Car Hood?
Replies
5
Views
11K
Tension, Compression, Shear Problem.
Replies
3
Views
5K
Structural Mechanics. bending moment and bending stress
Replies
17
Views
5K

Hot Threads

Recent Insights

Back
Top