# Does aerogel "blow up" in a vacuum?

Discussions in comments below How can aerogel be lighter than air? really make an answer to this important. The conclusions there are that aerogel could in some cases be "lighter than air" if one takes only the mass of the aerogel material and ignores the mass of any trapped gas within each cell, and divides by the volume of the whole thing (aerogel including all trapped volume in its cells).

Questions:

1. If you put aerogel in a vacuum does it "blow up" because pressure of trapped gas inside is not balanced by external pressure?
2. If not, is that because the structure is strong enough to contain the trapped gas, or because there's not much trapped gas to begin with?

For #2 the latter is more interesting because it suggests that aerogel could conceivably be produced that could float away even at STP.

• I've removed a number of comments that were obsolete, off topic, or perhaps attempting to answer the question. Please keep in mind that comments should be used for suggesting improvements and requesting clarification on the question. Aug 6, 2020 at 0:48
• @DavidZ ya I'm a big proponent of the SE ecosystem and like to encourage users to visit new sites, but I guess SE promotion in general is not what comments are for.
– uhoh
Aug 6, 2020 at 1:03

From NASA's article Aerogels: Thinner, Lighter, Stronger:

Since their invention, aerogels have primarily been made of silica. The silica is combined with a solvent to create a gel. This gel is then subjected to supercritical fluid extraction. This supercritical fluid extraction involves introducing liquid carbon dioxide into the gel. The liquid carbon dioxide surpasses its super critical point, where it can be either a gas or a liquid, and then is vented out. This exchange is performed multiple times to ensure that all liquids are removed from the gel. The resulting material is aerogel.

Removing all the liquid out of the gel implies that all the pockets made of silica that were filled with that liquid have to be interconnected, so the air in an aerogel can move from one pocket to another and eventually out of the aerogel !

So the trapped gas in your questions is not that "trapped" after all.

The polymer-based aerogel is 85-95% porous, meaning it offers the same advantages of traditional aerogels. It is equally light in weight, and has the same properties of thermal conductivity as silica-based aerogels. But these aerogels offer unprecedented flexibility, along with their durability and strength, and the ability to be made into a thin film.

Polymer aerogels are ideally suited for use in a vacuum, like in space, as well as in different gravity scenarios, such as the moon or other planets.

(Emphases by me)

Aerogel in a vacuum, from YouTube: nothing happens. My guess is that the structure is porous enough that the air is enclosed, but not really trapped. If I had a vacuum lab myself I would try to measure the outgassing time, but lately I just have YouTube.

Note from the other question that if the air entrained in the aerogel structure is at ambient pressure, the air is neutrally buoyant.

It would be very interesting to put some aerogel in a vacuum chamber, wrap the evacuated aerogel in something vapor-tight, like the Mylar used in helium balloons, and see if the assembly would float in air. The calculation is straightforward, but I haven't done it yet.

• +1 When you do please post on YouTube :-) my favorite YouTube laboratory Nile Red's video Making aerogel
– uhoh
Aug 5, 2020 at 2:48