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Super-Light Plastic As Strong as Steel
Roland Piquepaille writes "A new composite plastic built layer by layer has been created by engineers at the University of Michigan. This plastic is as strong as steel. It has been built the same way as mother-of-pearl, and shows similar strength. Interestingly, this 300-layer plastic has been built with 'strong' nanosheets of clay and a 'fragile' polymer called polyvinyl alcohol (PVA), commonly used in paints and glue, which acts as 'Velcro' to envelop the nanoparticles. This new plastic could soon be used to design light but strong armors for soldiers or police officers. The researchers also think this material could be used in biomedical sensors and unmanned aircraft."
Why do we always have to go to "It's light! It's strong! This will clearly help prevent foreigners from killing our troops!"?
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I hate that comparison. Are they talking Yield Strength or Ultimate Strength? What is the Modulus of elasticity? If you are talking strength there are many different steels with widely different strengths. Also if you are talking body armor there is also it's energy absorption capability.
I love Jesus, except for his foreign policy.
Plasteel, anyone?
"Oh boy"
So... why not make cars out of this stuff? Think, if it's as strong as steel, if the car body was made out of this then it would be like having a armored car, or at least a 50's American car. Then with the lighter weight it should improve gas mileage quite a bit. As long as the manufacturing process isn't too costly or cost goes down with more production, this sounds like it would be great.
Question everything that you've accepted without thinking.
Let's face it, mundane (but realistic) uses aren't exciting and don't make good stories. The microwave gun that generates pain across nerve endings is discussed in terms of urban combat and riot-suppression, but in the real world, more people are probably going to end up using the device in farmland where electric fences are impractical or impossible, as a replacement for noisy bird scarers, possibly even in a very low-power form in medical diagnostics when you want to generate a very controlled stimulus to determine the location and extent of nerve damage, etc.
An ultra-light plastic would be valuable for so many things, from cutlery to possibly safer alternatives to metal for pins and plates within the human body to a replacement for aluminium in airframes to a replacement for metals (lead especially) in "unbreakable toys". Depending on thermal properties, it may have uses in ducting where you need something strong but light. Depending on exactly what is meant by "strong", it may become a replacement for steel cabling in reinforced concrete - plastics tend to be better at aging. Current plastic drains are notoriously feeble. Now, please consider that Victorian drains are only now starting to reach the end of their lifespan, and Roman-era aqueducts are still perfectly functional, so anything that lasts a mere hundred years is simply living up to what was expected of material science a hundred years ago, and we really should be looking to match or better a bunch of iron Age punks. Could this plastic offer a cost-effective way of matching some of the greatest material science achievements in history?
It's a small world and it smells funny; I'd buy another if it wasn't for the money; Take back what I paid (SoM)
Does anybody who creates the tags RTFA? (OK, I'm not new here. That's meant to be a rhetorical question.) I don't see how this is biotech. The stuff is made out of sequential layers of clay and PVA. These layers are deposited mechanically from solution. It's not like they have genetically engineered critters secreting some new cool substance. Yes, the researchers do compare the structure to mother of pearl, but other than a structural simularity, that's all there is.