新闻
22 十月
Why are graphene nanotubes the conductive additive of choice for anti-static products made by filament winding methods? TUBALL nanotubes outperform other carbon-based fillers in their effect on electrical resistance and mechanical performance of #composites. More details from Vladimir Kravchenko. See more videos on how to make materials conductive on TUBALL Products & Solutions channel: https://www.youtube.com/c/TUBALLProductsSolutions #FilamentWinding #Thermoplastics #Nanotubes
20 十月
Devices that can be recharged out of thin air are close to becoming a reality thanks to carbon nanotubes. University of Cambridge scientists have developed a method to create printed electronics that could even be powered by ambient radio signals! https://www.azom.com/news.aspx?newsID=54771 #Nanotubes #PrintedElectronics
14 十月
Avoiding rubber marks – is it a common issue for your clients? Graphene nanotubes enable you to produce conductive, but non-marking, colored rubber. Explore more. https://youtu.be/OjNi5bfsjW4 #Nanotubes #ConductiveRubber #NonmarkingRubber
13 十月
Graphene nanotubes are at the forefront of mass electric vehicle adoption: researchers have created a composite that increases the current carrying capacity of copper wires. The material promises to improve the performance and service life of any EV component that uses copper, such as bus bars, connectors for traction inverters, wired charging systems, and more! https://www.mining.com/new-copper-composite-material-to-support-wider-ev-adoption/
8 十月
There is no additive on the market other than TUBALL nanotubes that enables full compliance with the EN 16350:2014 standard for ESD protective touchscreen gloves. Just 0.06% in latex is enough to enable permanent and humidity-independent conductivity, without affecting durability or color. Learn more: https://tuball.com/nanotubes-for/anti-static-latex/?utm_source=Facebook&utm_campaign=News-Feed #esdgloves #protectivegloves #ESDprotection #nanotubes #TUBALL
8 十月
Did you know that conductive RTV silicone rubber with TUBALL graphene nanotubes demonstrates much better mechanical properties compared to carbon black-based silicone? 4 times greater elongation at break, as just one example. You just need to disperse nanotubes in your compound properly. See more videos on how to make materials conductive on TUBALL Products & Solutions channel: https://www.youtube.com/c/TUBALLProductsSolutions #SiliconeRubber #ConductiveSilicone #Nanotubes #RTVSilicone
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1 十月
We are proud to announce the opening of OCSiAl’s first graphene nanotube R&D and technical support center in Europe! Located in Luxembourg, it stands at the forefront of developments in materials engineering solutions. One of the key focuses is to develop next gen, smart, strong and efficient materials for the cars of the future. Read more: https://ocsial.com/news/smarter-materials-and-cars-of-the-future-ocsial-opens-its-first-graphene-nanotube-r-and-d-center-in-europe/ #Nanotubes #SWCNT #NextGenMaterials #TUBALL
24 九月
One material with two names. Did you ever think about why single wall carbon nanotube is called graphene nanotube? Its wall is a single layer of carbon atoms, which is in fact graphene. But graphene was discovered 20 years after nanotubes, so the 'correct' name could not be given at the time. 🤓 Know more on TUBALL nanotubes: https://tuball.com/about-tuball #Nanotubes #DidYouKnow #Graphene #Chemistry #CNT
19 九月
It's Friday! Time to do the happy dance! And we have something to make your Friday dance even better – the world's first acoustic membranes made entirely of nanotubes with an incredible sound! Check out the details on this exciting technology, enabled by TUBALL: https://ocsial.com/news/the-worlds-first-acoustic-membranes-are-lighter-and-incredible-sound/ #Nanotubes #Acoustics #Loudspeakers #SWCNT