RedditRefugee69@lemmynsfw.com
on 20 Jan 01:44
nextcollapse
Of course it’s plastic.
BaroqueInMind@lemmy.one
on 20 Jan 02:11
nextcollapse
I mean, we have tried to completely stop, or at least slow, the refinement of crude oil, because there’s so much fucking byproduct that is made from it and is subsequently recycled and converted into plastic. What else can we do with all that fucked up petroleum byproduct besides make it all into some form of usable plastic?
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.
Any company will market that its ideas are possible. The article you linked is promising, but take it with a huge grain of salt. They are moving the goalposts the whole article. Flat graphene is a great material for space elevators, but it can’t currently be created without defects. Polycrystaline means the graphene created includes defects sort of. It means the graphene they created that is km’s long has shitloads of places where cycle loading will cause it to fail way under (like 10%) of its expected load carrying capacity.
Edit: I want this technology to exist. My MS in mechanical engineering focused in materials science tells me we are quite far from it happening.
werefreeatlast@lemmy.world
on 20 Jan 04:55
nextcollapse
China, please respect this secret. Its made up with grapheme threads. Its impossible to understand exactly so we made a little picture with the molecules and such so you can’t copy it.
ryannathans@aussie.zone
on 20 Jan 06:51
nextcollapse
So this is what John Wick had in his suit
NotMyOldRedditName@lemmy.world
on 20 Jan 18:08
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I loved those movies but they went way to hard into that suit in the later movies. I got ridiculous lol.
BeMoreCareful@lemmy.world
on 20 Jan 18:21
nextcollapse
Same with the Fast&Furious it used to be about import vs muscle and real street racing. Then it became jumping hyper cars from falling buildings to the next building over and turned to shit. Like most over milked series.
NotMyOldRedditName@lemmy.world
on 21 Jan 01:51
collapse
Waiiiit, was it actually meant to be about import vs muscle, like that was it’s intention? Or did they just happen to do that.
My favorite part was when he held the jacket up like a curtain. The material may be bullet proof, but the bullet will still push it out of the way like that lol.
iAvicenna@lemmy.world
on 20 Jan 09:04
nextcollapse
hello I would like to order a thousand full plate mails
someacnt@sh.itjust.works
on 20 Jan 10:23
nextcollapse
Surely I can’t be the only one who thought this were interleaved DNA chains
Currently, garbage. They used it to reinforce a polymer to go from a strength of 50 MPa to 70 MPa. Kevlar is 10x stronger, commercially scaled, and cheap
I don’t know if this will actually pan out the way that they imply in the title; armor needs to have a lot of different characteristics in order to be practical. As in, resistance to heat and cold, resistance to acids, alkalines, petroleum distillates, salts, UV, and oxygen, and also resist deformation. Multiple materials have displays significant promise for armor, but had a very short lifespan in real-word conditions. For instance, there was a material trademarked as Zylon that was supposed to be better than Kevlar, and it was used extensively by Second Chance (a body armor company); several cops were killed when their armor failed, and the armor failed because of exposure to sweat and ambient heat.
Yeah, this is a super cool development, but remember that everything that comes out at this stage is hype.
MonkderVierte@lemmy.ml
on 20 Jan 13:25
nextcollapse
It really depends on whether it can be made to meet all the other criteria required for armor. I think that it’s too early to make any good predictions.
Yes… that’s why they use the word “could”.
This is how research works and what reasonable science reporting looks like.
There were no promises or wild claims made in the article.
Well not immediately… Years from now when the military develops something even better then this will all become surplus and sold off to SWAT teams etc. for next to nothing.
Correct. 🙂 Reminds me of when I wanted new tires & I was complaining about how some tires were rated for a criminally short life. I wondered which ones lasted the longest.
The mechanic then remarked that sure, they can make tires that last a hell of a long time & never puncture. But the ride would be so terrible because the tires would be tough, stiff, would work your suspension harder, and it would cost a fortune to boot. It’s not worth it. There are multiple material, usage considerations when making a product. Really makes you appreciate the experts in their various fields.
Not to mention, really hard tires would have very poor grip. The rubber needs to be a bit softer to squish around all of the little imperfections in the road, technically increasing the contact area and providing a little lateral bracing (probably not the right term so I hope I’m making sense). This is why a lot of performance tires have shorter lifespans then other tire types, because in addition to a different tread pattern, they also often use a softer, “stickier” rubber, which wears out faster.
I’m sure this is real, but I see a headline like that and I think of schoolyard talk. Like, nuh uh, my armour has 100 trillion bonds, you can’t shoot me.
threaded - newest
Of course it’s plastic.
I mean, we have tried to completely stop, or at least slow, the refinement of crude oil, because there’s so much fucking byproduct that is made from it and is subsequently recycled and converted into plastic. What else can we do with all that fucked up petroleum byproduct besides make it all into some form of usable plastic?
it’s very lightweight though, so it could reduce plastic usage by mass, by reinforcing plastic/other materials.
There’s also no reason why polymers need to be made out of oil: See PLA, cellophane, viscose, etc.
Microplastic, even
Whether or not it’s plastic isn’t as big an issue as whether or not it’s biodegradable within a realistic timeframe.
everything is degradable with enough heat
I’m sure it will mix well with the depleted uranium smoke the targeted crew will already be breathing.
molecular chainmail
Could this be used to make a space elevator?
No.
What about a space escalator?
I heard it was for lifts only
Escalator is smart, because if it breaks, you can still walk to space.
It would probably be strong enough, but not viable to manufacture.
“the manufacturing process of the 2D polymer is highly scalable”
First line of the article
Ok but there’s ‘high’ and then there’s ‘low earth orbit’.
That’s what my dispensary tells me too
My man!
Scalability is not viability.
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.
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.
Any company will market that its ideas are possible. The article you linked is promising, but take it with a huge grain of salt. They are moving the goalposts the whole article. Flat graphene is a great material for space elevators, but it can’t currently be created without defects. Polycrystaline means the graphene created includes defects sort of. It means the graphene they created that is km’s long has shitloads of places where cycle loading will cause it to fail way under (like 10%) of its expected load carrying capacity.
Edit: I want this technology to exist. My MS in mechanical engineering focused in materials science tells me we are quite far from it happening.
I think I remember reading that a structure strong enough would have to be wider than the earth
The stronger the material the thinner it could be.
There are a lot of properties in the word ‘stronger’ though.
Now this is a technology post!
I don’t know if I’d call materials science technology, exactly, but it’s certainly more on topic than “business but at a tech company” posts.
Yeah yeah we get it, everyone is wrong but you and all that.
That’s ludicrous, because that’s true for me and not them.
Cutting edge materials science and manufacturing is 100% technology.
I only acknowledge technological advancements made in writing utensils. Keyboards and Typewriters do NOT count. So don’t even get me started
Of course material science is technology lol
Wow what a stupid comment. Materials science is technology.
Yeah, everyone knows that technology only involves computers and they’re basically just made out of metal and not some fancy material.
What would you say is technology? Materials science isn’t technology, but what about things made out of the materials created by materials science?
Goes on to form company called General Products, builds spacecraft hulls. 😉
Please, could we move to Known Space?
China, please respect this secret. Its made up with grapheme threads. Its impossible to understand exactly so we made a little picture with the molecules and such so you can’t copy it.
So this is what John Wick had in his suit
I loved those movies but they went way to hard into that suit in the later movies. I got ridiculous lol.
They did Rambo the franchise a bit.
Same with the Fast&Furious it used to be about import vs muscle and real street racing. Then it became jumping hyper cars from falling buildings to the next building over and turned to shit. Like most over milked series.
Waiiiit, was it actually meant to be about import vs muscle, like that was it’s intention? Or did they just happen to do that.
My favorite part was when he held the jacket up like a curtain. The material may be bullet proof, but the bullet will still push it out of the way like that lol.
hello I would like to order a thousand full plate mails
Surely I can’t be the only one who thought this were interleaved DNA chains
Anecdotal evidence would seem to suggest that DNA is not a particularly effective armor.
I'll be eager to know what the results will be about it's resistance to bullets and sharpened objects.
Currently, garbage. They used it to reinforce a polymer to go from a strength of 50 MPa to 70 MPa. Kevlar is 10x stronger, commercially scaled, and cheap
I don’t know if this will actually pan out the way that they imply in the title; armor needs to have a lot of different characteristics in order to be practical. As in, resistance to heat and cold, resistance to acids, alkalines, petroleum distillates, salts, UV, and oxygen, and also resist deformation. Multiple materials have displays significant promise for armor, but had a very short lifespan in real-word conditions. For instance, there was a material trademarked as Zylon that was supposed to be better than Kevlar, and it was used extensively by Second Chance (a body armor company); several cops were killed when their armor failed, and the armor failed because of exposure to sweat and ambient heat.
Yeah, this is a super cool development, but remember that everything that comes out at this stage is hype.
Layer it with Kevlar and good?
It really depends on whether it can be made to meet all the other criteria required for armor. I think that it’s too early to make any good predictions.
Yes… that’s why they use the word “could”. This is how research works and what reasonable science reporting looks like. There were no promises or wild claims made in the article.
The armor works perfectly fine as long as it’s not exposed to oxygen. But when’s that ever going to happen?
That by itself isn’t terrible, that could still be used if it is sealed in something like an era brick if it’s good enough.
There will need after the world finally realize how shitty and bloodthirsty they really are. The country of mandatory guns lmao
Kids will get this instead of free school lunches.
Paper link: www.science.org/doi/10.1126/science.ads4968
This is still basic research, it’s not close to commercialization.
…and uses it to oppress and/or disenfranchise poor people
You mispronounced promote American interests.
America bad
Indeed
I can’t wait to find out how toxic this is.
Good news, it’s completely non toxic.
Bad news, it costs 2 million dollars per square foot.
The pentagon will now take your whole paycheck.
Thank you for your support, patriot.
The article says the process is scalable.
Good news, it costs 2 million dollars per square foot, so they won’t militarise the police further with it.
Well not immediately… Years from now when the military develops something even better then this will all become surplus and sold off to SWAT teams etc. for next to nothing.
With these bonds so dense, I want to imagine that it would actually be quite non-toxic as these is little to react with.
Then again, I’m not a bio chemist
They will make it into a mandatory dress uniform for school children.
100 trillion barry bonds
At least it’s not 100 trillion James Bonds.
Not if Hank Scorpio has anything to say about it.
i could make stronger
I did your mom stronger
Me when the only thing I eat all day is weed and cheese.
Why don’t they just use diamond, the hardest metal?
Hardness isn’t the best thing to have in armor. In fact, extreme hardness means extreme brittleness.
Tensile strength is more desirable in armor. That’s the sort of strength that a string or rope, or Kevlar will have.
Those can stretch a bit before breaking.
Kevlar will stretch a bit when catching a bullet, this does a few things, but importantly it slows the bullet before stopping it.
So this new material will likely show extreme tensile strength rather than hardness.
Correct. 🙂 Reminds me of when I wanted new tires & I was complaining about how some tires were rated for a criminally short life. I wondered which ones lasted the longest.
The mechanic then remarked that sure, they can make tires that last a hell of a long time & never puncture. But the ride would be so terrible because the tires would be tough, stiff, would work your suspension harder, and it would cost a fortune to boot. It’s not worth it. There are multiple material, usage considerations when making a product. Really makes you appreciate the experts in their various fields.
Not to mention, really hard tires would have very poor grip. The rubber needs to be a bit softer to squish around all of the little imperfections in the road, technically increasing the contact area and providing a little lateral bracing (probably not the right term so I hope I’m making sense). This is why a lot of performance tires have shorter lifespans then other tire types, because in addition to a different tread pattern, they also often use a softer, “stickier” rubber, which wears out faster.
I thought Dragonforce was the hardest metal known to man?
Lol, this
Anyone know the cost per kilogram?
Edit: Apparently $20,000/kg
…for now
I’m sure this is real, but I see a headline like that and I think of schoolyard talk. Like, nuh uh, my armour has 100 trillion bonds, you can’t shoot me.
They must have hired some former Nvidia marketing guys.
I skimmed the article, scrolled down but people hasn’t mentioned its mechanically Chain mail in atomic scale yet? Did I read it wrong?
It is