Mechanical modeling of inflating a elastomeric balloon

AI Thread Summary
The discussion focuses on the challenges of modeling the inflation of an elastomeric balloon to achieve a specific "hotdog" shape. Key points include the need for governing equations that account for differential geometry and elastic material behavior, as a simple stress-strain curve is insufficient. Initial analysis of a spherical balloon is recommended to understand the biaxial deformation before progressing to the desired shape. The conversation emphasizes the importance of measuring principal stresses and stretches to design the balloon effectively. Overall, the complexities of the problem require careful consideration of material properties and deformation characteristics.
spiri
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Hello PF,

Can anyone recommend a set of governing equations for the design of a simple elastomeric balloon that will expand to a "hotdog" shape when inflated to a certain pressure? I have the stress-strain curve for the material, I know what pressure I need to inflate it to, I just can't figure out how to determine what the "empty" geometry needs to be to get me to the inflated shape and wall thickness with a polyisoprene. I'd like to stay within the elastic range of the material so that it deflates with a constant pressure for a specific length of time. Any thoughts?

John
 
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This is not a simple problem. Setting it up properly requires knowledge of differential geometry and elastic material behavior. Just having a stress strain curve is not enough. You need to have the stress strain behavior in large bi-axial deformations of the sheet , with unequal stretches in the two principal directions. You also need a differential force balance on each arbitrary patch of surface.

Chet
 
Thanks Chet. It's a very complex problem. I'm hoping to get an approximation so that I can build some prototypes and then test it and optimize. Any ideas?

John
 
Start out with analyzing a spherical balloon. Why? If you can't do that, you won't be able to do a hot dog. The sphere is a 1D problem, and the deformation is equal biaxial.

Chet
 
Thanks so much Chet! That's what I was thinking. I was thinking of treating the system as a thin-walled pressure vessel to calculate the stress on the wall at the inflated pressure. Knowing the internal pressure and assuming a thickness, that will give me a stress that I can look up to see what region of the S/S curve I am in. The problem I have is, since it's an elastomer, there is a region where the S/S curve is fairly flat (and that's where I want to be) so I'd like to design the empty so that I end up with a balloon that will inflate to a certain sized sphere and then possibly elongate into a "hotdog" shape and hopefully continue to retain the same internal pressure (+/- some tolerance) while increasing in volume. Any further thoughts?
 
Yes. I assume you are talking about a uni axial stress strain curve. For a sphere, you need to stretch biaxiallly, with equal stretches in both directions. For a hot dog, you need to stretch unequally in both directions, covering a broad range of ratios. These are the kind of measurements you will need.

Chet
 
In the previous reply, by measurements, I meant two principal stresses and two principal stretches.
 

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