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?
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I had a feeling it’d math out something like that if I opened my fat mouth, lol
I do wonder if thickness of the walls or lid/bottom does have an effect, though, as there must be some reason they make these weird ass cans
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The lid uses more aluminum than the rest of the can, making that smaller will have a bigger impact than the height of the can.
and both of those cans use the same size lid
Just a marketing trick IIRC, since energy drinks got popular and beer cans got unpopular among gen z.
True, look at the seltzer market for instance.
pretty sure it just lets them fit more cans into the same box for shipping, same logic as how you can pack more sand into a box than you can pebbles
a sphere (think bubbles) minimizes area for a given volume
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?
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