Effective Thermal Insulator can be made thinner than human hair.August 27, 2014 -
As small-scale insulator, InsulonŽ barrier uses Hyper-Deep Vacuum™ technology for optimal efficiency. Vacuum that results from how material is taken out stops thermal conduction. Able to be supplied in virtually any shape, material has been designed into curved-wall devices with just 0.2 mm total thickness. Product has also been manufactured as thin as 0.1 mm, but this technology is available in even thinner form factors.
Concept Group's New Thermal Insulator Thinner than Human Hair
Concept Group, Inc.
380 Cooper Rd.
West Berlin, NJ, 08091
Press release date: June 17, 2014
Amazingly Thin Thermal Insulation Stops Conductive Heat With A Vacuum Barrier. Available In Just About Any Size and Shape.
West Berlin NJ – Ask an engineer what price he or she has to pay for effective thermal insulation. Their answer will surprise you. They won’t give you a dollar figure. They’ll say that insulation takes up too much space. Or it has to be some standard shape that doesn’t fit. They have to use more – thicker – insulation. And they don’t like it.
Well, there’s good news for thermal engineers. Concept Group’s new InsulonŽ barrier is a new kind of small-scale insulator. It can be supplied in virtually any shape, down to amazingly small dimensions. For example, Insulon barriers have been manufactured as thin as 0.1mm, the width of a human hair, and the technology can go even thinner. Shape is likewise typically not a limitation. Insulon barriers have been designed into curved-wall devices with just 0.2mm total thickness.
The key to the Insulon barrier’s insulating power is its Hyper-Deep Vacuum™, explained Aarne Reid, President and CEO of Concept Group. “Most insulators use some thickness of material to damp out the conductive transfer of thermal energy, the thicker the better,” said Reid. “But Insulon shaped-vacuum technology does the opposite. It takes material out, leaving a vacuum. Once heat encounters this vacuum, molecule-to-molecule energy transfer cannot occur. Thermal conduction stops.” Reid continued, “That’s why engineers can design an Insulon barrier into such tight spaces, or around such small tubes, or into such small devices. Even the thinnest Insulon barrier stops conduction cold.”
The power of the new insulating technology is being demonstrated in a growing variety of applications. “Thermal engineers are really the ones pushing the Insulon envelope,” said Reid. “The more challenging their application, the better. Odd shapes, small dimensions, extreme temperatures, big temperature differentials. They won’t find a more effective insulator than this Insulon barrier, and we can fit it into or onto whatever shape they’re working with.”
Concept Group, Inc.(www.conceptgroupinc.com; 800-424-7325) is an ISO 9001:2000-certified developer and manufacturer of advanced technology hermetic seals, vacuum-insulated products, and numerous other precision assemblies. Its products can be found in the skies on commercial and military aircraft, in spacecraft circling the globe, in the human body during cryoablation surgery, and even deep underground in oil/gas exploration.
Contact: Bill Thomas
Tel: 800-424-7325 x 420