...There was some kind of switch involved, I hope?
In all likely not worth the trouble. When I moved to Canada I gave away most of my power tools for that reason and when I moved back I had to do that all over again.
If you ever have to do it again, you can probably get a transformer rated high enough for power-tools for cheaper than replacing all of your power tools.
Killed a few tapes with a transformer on a US tape deck before buying a 220V 50Hz unit. No, I don’t remember if the pitch was grossly off, but I’m guessing it wasn’t.
I think the answer to your question is that it mostly doesn't matter for personal mug size quantities of hot water and if it does matter to you there are readily available competing options such as dedicated taps for your kitchen sink.
Perhaps the biggest reason is that a traditional kettle on any half decent electric range will match if not exceed the power output of any imported electric kettle. Many even go well beyond that with one burner marked "quick boil" or similar.
I’m surprised that American exceptionalism can tolerate half powered sockets.
No one in the USA drinks hat tea. The choices (and it tends to be regionally-based) is sweet or unsweet tea. No need to boil a kettle quickly for that.
... Unless you're buying it pre-made, does this not still start with making hot tea the regular way? Or what exactly are you doing with the tea bags and loose tea from the supermarket?
There are dozens of us.
Perplexingly I was traveling in one of the iced tea regions of the country in need of a cup of hot tea, and they had no way to make it. Like, you have a commercial coffee maker and hot cups, the coffee maker has a hot(ish) water tap. All you need is a $4 box of teabags that’ll last until the heat death of the universe. Nope.
Still though, I don't seem to see most of those people seriously clamoring for the electric kettle to go a bit faster. The cost for the wiring difference and dealing with odd imported kettles just isn't worth it generally.
How expensive would a proper AC->DC->AC brick for that power level be?
A pure sinewave inverter for that kind of power is maybe 600 to 1000 bucks or so, then you'd still need the other side and maybe a smallish battery in the middle t stabilize the whole thing. Or you could use one of those single phase inverters they use for motors.