Thin walled polymer balloon deflection

In summary, the conversation discusses the challenges of designing an inflatable balloon to support a force like a cantilever. The person is struggling to find literature or assistance for the calculations needed to determine the balloon's deflection under a standard force. It is noted that the balloon does not act like a beam and the physics involved are more complex due to its thin membrane structure. Research on automobile airbags may provide some helpful insights for this problem.
  • #1
Tom Gerhardt
1
0
Hi,
I am designing an inflatable balloon (long and thin like those used to make balloon animals) with a purpose to support a force in a manner like a cantilever.

I am struggling to find literature/assistance regarding the calculations required to determine balloon deflection under a standard perpendicular force. I don't know how to equate the hoop/axial stresses, the elastic modulus of the material and lastly the equations for simple beam deflection.

If anyone can shed some light on this problem I would be grateful!

Thanks,
Tom
 
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  • #2
That's because the balloon doesn't act like a beam. The skin of the balloon is a membrane and the physics of how it reacts to loads imposed on it are much more complicated and difficult to solve than for a beam or even a structure constructed out of a thin, rigid shell. With structures constructed from metal shells, like an airplane fuselage, certain simplifications can be made concerning how much the plate can deflect relative to its thickness which allow one to make calculations without a lot of work. Because the skin of a balloon is so thin, these simplifications cannot be applied, and the problem becomes much more complicated.
 
  • #3
One possibility would be to study the research done on automobile airbags.
 

1. What is a thin walled polymer balloon?

A thin walled polymer balloon is a type of balloon made from a thin layer of polymer material, such as latex, silicone, or polyethylene. It is commonly used for party decorations, packaging, and medical applications.

2. How is the deflection of a thin walled polymer balloon measured?

The deflection of a thin walled polymer balloon is typically measured by applying an external force, such as air pressure or weight, and recording the resulting displacement of the balloon's surface. This can be done using specialized equipment, such as a pressure gauge or a laser displacement sensor.

3. What factors affect the deflection of a thin walled polymer balloon?

The deflection of a thin walled polymer balloon is affected by several factors, including the material properties of the balloon (such as elasticity and thickness), the amount of air or fluid inside the balloon, and the external forces applied to the balloon.

4. How is the deflection of a thin walled polymer balloon related to its elasticity?

The deflection of a thin walled polymer balloon is directly related to its elasticity, which is a measure of the material's ability to stretch and return to its original shape. A more elastic balloon will have a greater deflection when the same external force is applied compared to a less elastic balloon.

5. What are some practical applications of studying thin walled polymer balloon deflection?

Studying thin walled polymer balloon deflection can have practical applications in various industries, such as packaging and medical devices. It can also be used to understand the behavior of other thin walled structures and improve their design and performance. Additionally, understanding the deflection of thin walled polymer balloons can help in the development of more accurate models for predicting their behavior in different conditions.

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