Air spring stiffness calculation

AI Thread Summary
The discussion focuses on the calculation of air spring stiffness using a non-linear formula, which has yielded a stiffness value 40% lower than the supplier's specification. The formula involves parameters such as air pressure, spring height, effective area, and the polytropic coefficient. Participants suggest ensuring the correct value of the polytropic coefficient is used and recommend comparing results with actual load versus deflection test data for accuracy. Additionally, establishing a curve fit equation based on the manufacturer's data is advised for better simulation results. Accurate modeling of air springs may require collaboration and further investigation into specific manufacturer's characteristics.
serbring
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Hi guys,

I must simulate with simulink an air spring, connected to a device. In many book is present this non linear formula:

k(h)=-(n*P0*Ae*h0^n)/(h^(n+1))

Where:
P0 is the air pressure at the equilibrium condition
h0 is the spring heigth at the equilibrion condition
Ae=F/P0 is the effective area
n is the polytropic coefficient

So for checking the formula, I try to compare my result with the stiffness provided by the supplier and unfortunately I get a different value (40% less) .

In this link you can find an air spring catalogue:
http://213.164.133.30/catalog/ShowBalgPDF/SZ 50-11.pdf

For example, at 3bar=3*10^5 Pa I got an force of 1200N, h0=0.15m

K(h0)=1.4*1200/0.15=11200N/m, instead of 18500N/m. What is wrong in my calculation?

Thanks
 
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hi were you able to get an answer to this ...?
 
Unfortunately not
 
are you working on Air Spring simulation ? was it for some college project ?
 
I am working on air spring simulation for a multibody simulation project
 
Oh that's good. Even i am doing same. What all are you investigating ? Maybe we can converse over mails, if that is ok with you .
 
This is an obvious question; but, are you sure you are using the same value of "n" as the manufacturer is using in the equation for the type of gas in the cylinder?
 
After viewing the air spring design configuration (which I should have done before entering my above post) I don't think that my question in that post is of any value.

Alternatively, I suspect that a curve based upon actual load vs deflection test results are the only way to establish a truly accurate curve for the sleeve deflections on that type of air spring. If you need to simulate such a spring for a project I recommend that you select a specific manufacturer's spring that suits your application and based upon the actual travel range you require; then, try to establish a curve fit equation for F vs d for that section of the manufacturer's supplied F vs d curve to use to determine the effective k values in your calculations.
 

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