Vacuum infusion bag - can external pressure help?

In summary, using a vacuum bag and a pressure chamber can increase the effectiveness and speed of infusing materials with liquid resins. This is because the pressure differential between inside and outside plays a crucial role in the process. However, there may be some differences in practice if a breather membrane is not used to ensure uniform pressure distribution.
  • #1
R_Rose
16
0
Vacuum bags are used to infuse various things with liquid resins such as fiberglass or carbon fiber. It seems that the higher the vacuum the better (and possibly faster) the infusion works. Could it be more effective to use a vacuum bag and also have the entire bag in a pressure chamber to get a higher total pressure for the infusion?

If the pump that was available could only produce 50% vacuum, could this be overcome by the pressure chamber and would the external pressure have the same effect on the infusion as a vacuum has?
 
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  • #2
Short answer is yes.

What matters is the pressure differential between inside and out. At sea level the maximum pressure differential would be about 14psi (eg a perfect vacuum inside and 1 atmosphere outside). The only way you could increase this would be to use a pressure chamber.
 
  • #3
R_Rose said:
would the external pressure have the same effect on the infusion as a vacuum has?

In theory yes but in practice there might be some differences, particularly if you did not use a breather membrane inside to ensure the pressure differential was uniform over the surface of the laminate.
 

Related to Vacuum infusion bag - can external pressure help?

1. What is a vacuum infusion bag?

A vacuum infusion bag is a flexible, airtight bag used in the process of vacuum infusion, a technique used to manufacture composite materials. It is typically made of a thin, impermeable material such as plastic or silicone and is used to enclose a mold and the materials being infused.

2. How does vacuum infusion work?

Vacuum infusion involves placing the materials to be infused, such as resin and fibers, inside a vacuum infusion bag and sealing it. The bag is then connected to a vacuum pump, which removes the air from inside the bag, creating a vacuum. This pressure difference allows the resin to be drawn into the fibers, saturating them and creating a strong composite material.

3. Can external pressure help with vacuum infusion?

Yes, external pressure can help with vacuum infusion. The external pressure, also known as external clamping pressure, is applied to the outside of the vacuum bag to help compress the materials being infused and remove any air pockets. This can improve the quality and strength of the final composite material.

4. What are the benefits of using external pressure in vacuum infusion?

Using external pressure in vacuum infusion can help improve the quality and strength of the final product. It can also help reduce the amount of time needed for infusion, as the external pressure helps to draw the resin into the fibers more quickly. Additionally, external pressure can help create a more uniform distribution of resin throughout the materials being infused.

5. Are there any risks associated with using external pressure in vacuum infusion?

While external pressure can provide many benefits in vacuum infusion, there are also some potential risks to consider. Applying too much external pressure can cause the materials to become too compressed, which can lead to resin starvation and a weaker final product. It is important to carefully monitor and control the external pressure to avoid these risks.

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