Galvorn is stronger than steel, lighter than aluminum, and has the conductivity of copper, according to an article on LinkedIn. While the jury is still out on whether it’s faster than a speeding bullet, experts at Houston-based DexMat suggest their product can revolutionize the green tech landscape.
Galvorn can be an alternative to rare and expensive copper — a crucial metal in electronics, according to a report from GreenBiz. What’s more, the inventors plan to displace dirty materials, contribute to cleaner air, and advance green tech as their “magical” material is rolled out.
Galvorn is the result of a more than $20 million investment from two U.S. Air Force research agencies, the Department of Energy, and NASA, among other tech heavy hitters, GreenBiz reports.
“DexMat’s potential climate impact gets us dizzy,” investor Shomik Dutta, managing partner at Overture Climate VC, told GreenBiz as part of a gushing review.
Galvorn is made as tape, yarn, thread, or mesh, among other forms. Its makers said that J.R.R. Tolkien’s “Lord of the Rings” was an inspiration in the process, though, at first glance, you wouldn’t think it can stand up to Orc blades.
“[A] skilled elven smith by the name of Eöl creates a new type of metal called galvorn that is described as being thin and flexible, yet also strong enough to serve as armor,” DexMat shared on the company’s blog, describing how the creators came up with the name.
While not made in an elf’s forge, the real-life version of Galvorn comes from an equally impressive process. It’s a high-tech technique that includes splitting hydrocarbons, according to GreenBiz.
The impact for consumers will be felt in the application. Lighter and faster vehicles, lighter wind-turbine blades, and higher conductivity in batteries to improve renewable power storage are all advantages Galvorn is set to realize, GreenBiz reports. It is already being used to help de-ice plane wings.
Dutta noted in the GreenBiz article that putting Galvorn fibers in concrete and other materials could strengthen and provide longer life for buildings and infrastructure. The goal for DexMat is to make carbon-heavy resources like copper “obsolete.”
“The climate crisis, the clean energy transition, and the ‘electrify everything’ movement are driving a massive transformation of industries and infrastructure globally,” the website states.
DexMat touts a clean manufacturing process that uses electricity, which at times is powered by renewables. Since Galvorn is made from carbon, it locks the heat-trapping element “into long-term storage, where it can’t contribute to global warming,” the company claims.
“Of everything we have touched, this has the potential to have the most impact in the most places,” Dutta said to GreenBiz.
Join our free newsletter for weekly updates on the coolest innovations improving our lives and saving our planet.
Scientists discover 'magical' material that's stronger than steel and lighter than aluminum — and its potential is dizzying. Galvorn is stronger than steel, lighter than aluminum, and has the conductivity of copper, according to an article on LinkedIn.
It's the result of a more than $20 million investment from DEXMAT, two U.S. Air Force research agencies, the Department of Energy, NASA, the National Science Foundation and Advanced Functional Fabrics of America. It is stronger than steel, lighter than aluminum, and has the conductivity of copper.
Polycarbonate is one of the strongest plastics on the market and can withstand forces nearly 200 times stronger than steel. Additionally, plastic can flex to recover from dents and damage, making it a great material for construction companies that need strong materials.
Galvorn carbon nanomaterials conduct electricity like metals, have the softness and flexibility of cotton, while being lightweight and corrosion resistant like polymers—and it is even flame-resistant. With a carbon-negative impact at scale, it offers the best of all worlds.
Galvorn is stronger than steel, lighter than aluminum, and has the conductivity of copper, according to an article on LinkedIn. While the jury is still out on whether it's faster than a speeding bullet, experts at Houston-based DexMat suggest their product can revolutionize the green tech landscape.
Researchers at the US Air Force and NASA have announced a new material, which is lightweight, flexible, stronger than steel, at least as conductive as copper, and black. There are almost limitless applications for this stuff, everything from turbine blades to wiring harnesses.
Measuring one million times less than the width of a human hair, graphene is harder than diamonds and 200 times stronger than steel. Small, strong, and flexible, it is the most conductive material on earth and has the potential to charge a cell phone in just five seconds or to upload a terabit of data in one.
Tungsten, which is Swedish for "heavy stone," is the strongest metal in the world. It was identified as a new element in 1781. It is commonly used to make bullets and missiles, metal evaporation work, manufacturing of paints, creating electron and Television tubes, and making glass to metal seals.
The tensile strength and elastic modulus of graphene are 125Gpa and 1.1tpa, respectively, and its strength is 100 times that of ordinary steel. Bags made of graphene, which can hold about 2 tons of weight, are by far the strongest material known.
Researchers at the University of Pennsylvania have created a new material called 'metallic wood' that is stronger than titanium but lighter than water. This breakthrough could lead to the development of lighter and stronger materials for use in aerospace, automotive, and other industries.
For a start, it is the lightest of all the metallic elements, which is why it is so popular for use in vehicles and aircraft. It is also strong, and it is that strength-to-weight ratio that makes it so desirable. It's used in everything from military helicopters to racing cars.
Weight for weight, Galvorn (at 3.0 GPa) is 10x stronger than some of the strongest forms of steel–and 30x stronger than stainless steel and other common structural steels. Yet for all its strength it's less than ¼ the density and carbon-negative at scale.
When put to the test, the glass-coated DNA lattice was shown to be four times stronger than steel. What was even more interesting was that its density was about five times lower. While there are materials that are strong and considered fairly lightweight, it has never been achieved to this degree.
Introduction: My name is Nathanael Baumbach, I am a fantastic, nice, victorious, brave, healthy, cute, glorious person who loves writing and wants to share my knowledge and understanding with you.
We notice you're using an ad blocker
Without advertising income, we can't keep making this site awesome for you.