this post was submitted on 12 Oct 2024
469 points (96.8% liked)

Microblog Memes

6025 readers
1287 users here now

A place to share screenshots of Microblog posts, whether from Mastodon, tumblr, ~~Twitter~~ X, KBin, Threads or elsewhere.

Created as an evolution of White People Twitter and other tweet-capture subreddits.

Rules:

  1. Please put at least one word relevant to the post in the post title.
  2. Be nice.
  3. No advertising, brand promotion or guerilla marketing.
  4. Posters are encouraged to link to the toot or tweet etc in the description of posts.

Related communities:

founded 1 year ago
MODERATORS
 
you are viewing a single comment's thread
view the rest of the comments
[–] kSPvhmTOlwvMd7Y7E@lemmy.world 47 points 2 months ago (4 children)

I don't understand how it's possible to melt a pan? What's going on?

[–] remotelove@lemmy.ca 19 points 2 months ago (2 children)

While I don't know exactly what happened here, if the pan was dry or all the moisture was cooked out of the food, there isn't really much to dissipate heat.

If this pan was a cheap alloy, it was possible that it had a low melting temperature. If the stove was on high, the pan will eventually get as hot as the stove allowing it to melt or at least, collapse under its own weight.

[–] Eufalconimorph@discuss.tchncs.de 22 points 2 months ago (1 children)

Non-stick pans tend to be made of aluminum (660°C melting point), sometimes alloyed with some copper to improve thermal conductivity. Aluminum-copper alloys tend to melt in the 500-600°C range. Most aluminum alloys melt at a point which an electric stove can easily reach if left on high. The coils can glow cherry-red pretty easily, which is 815-870°C.

[–] remotelove@lemmy.ca 1 points 2 months ago

Lulz. I was reminded of the conspiracy theory "jet fuel can't melt steal beams", for some reason.

(While that statement is technically true, metals can get extremely soft while they are heated close to their actual melting points. You know this, but it's surprisingly easy for many to overlook this basic fact because of the specific data on melting points and such.)

Thanks for filling in the gaps, btw. Data good. Nom.

load more comments (1 replies)