Extreme doubt on strong enough. The author of this article barely understands the words they are using. Cool it strain hardens, so do so many other materials. Cool it’s tough like many other materials. Wow it has more links than others. No actual numbers about toughness, yield, ultimate strength, cycle limits, etc. It’s great research, but it absolutely isn’t going to magically solve the space elevator issue.
Could this be used to make a space elevator?
I think I remember reading that a structure strong enough would have to be wider than the earth
No.
What about a space escalator?
Escalator is smart, because if it breaks, you can still walk to space.
I heard it was for lifts only
It would probably be strong enough, but not viable to manufacture.
Extreme doubt on strong enough. The author of this article barely understands the words they are using. Cool it strain hardens, so do so many other materials. Cool it’s tough like many other materials. Wow it has more links than others. No actual numbers about toughness, yield, ultimate strength, cycle limits, etc. It’s great research, but it absolutely isn’t going to magically solve the space elevator issue.
Space elevator companies seem to think that materials exist that are strong enough, just that they are not long enough.
https://www.isec.org/space-elevator-tether-materials
Very much layman conjecture, but my assumption is that this material is stronger than carbon nanotubes and graphene.
“the manufacturing process of the 2D polymer is highly scalable”
First line of the article
Scalability is not viability.
Ok but there’s ‘high’ and then there’s ‘low earth orbit’.
That’s what my dispensary tells me too
My man!