this post was submitted on 12 Mar 2024
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[–] [email protected] 15 points 8 months ago (17 children)

You sure about that?

Cylinders of the same volume will have the same area, so it should be the same amount of aluminum?

Maybe less, even, since the lid and bottom are thicker than the sides and on the taller can there's less of that thick top/bottom

[–] [email protected] 65 points 8 months ago* (last edited 8 months ago) (10 children)

Ignore things like the bevel, wall thickness, etc. Just calculating for a basic right cylinder, you can see how the surface area changes for different heights with a constant volume. I've outlined the standard dimensions of a can(inches). https://youtu.be/gL3HxBQyeg0

[–] [email protected] 1 points 8 months ago (1 children)

I always thought that narrower pressure vessels could contain higher pressure, because the curvature is more severe, meaning that for a vessel that needs to retain a similar level of pressure, you could just use less material in the walls of the vessel. Is this not the case with these new cans, and they have the same wall thickness, or is the tradeoff just one that still works out to be in favor of more total aluminum usage?

[–] [email protected] 3 points 8 months ago* (last edited 8 months ago)

Force inside a cylinder vessel is just pressure times surface area. If you have the same pressure(soda carbonation) with more surface area, then you are putting less force on the walls. I don't have any specialty in the materials engineering for canning, but i suppose less force on the walls means you could use thinner materials. However, soda can walls are already pretty thin to start with and from what I can find online, the tops are usually 2.5-3 times thicker. So, I could see it potentially cutting some cost from the tops by making them thinner but i doubt they are manufacturing different tops. It's probably just marketing.

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