Concept Group, LLC
Ste. 120
Palm Beach Gardens, FL 33418
Thermal Insulation stops heat conduction in tight spaces.
Based on Insulon-® Shaped-Vacuum™ technology, Thermal Barrier Insulation uses power of extremely deep, shaped vacuum to block conductive transfer of thermal energy. Because sizes and shapes are virtually unlimited, potential applications span wide range of industries, including medical devices, electronics, military, and aerospace uses. Â
Read More »Thermal Barrier blocks heat with Hyper-Deep Vacuum(TM).
Serving as small-scale thermal insulator, Insulon-® Thermal Barrier uses extremely deep, shaped vacuum to block conductive transfer of thermal energy. Shaped-vacuum barrier allows 60 times less thermal conduction than nylon insulation, 8 times less than polyethelene foam, and 5 times less than completely empty air gap. Barriers have been designed and manufactured down to width of human hair with...
Read More »Thermal Insulation stops heat conduction in tight spaces.
Based on InsulonÃ-® Shaped-Vacuum™ technology, Thermal Barrier Insulation uses power of extremely deep, shaped vacuum to block conductive transfer of thermal energy. Because sizes and shapes are virtually unlimited, potential applications span wide range of industries, including medical devices, electronics, military, and aerospaceÃÂ uses. ÃÂ
Read More »Thermal Barrier blocks heat with Hyper-Deep Vacuum(TM).
Serving as small-scale thermal insulator, InsulonÃ-® Thermal Barrier uses extremely deep, shaped vacuum to block conductive transfer of thermal energy. Shaped-vacuum barrier allows 60 times less thermal conduction than nylon insulation, 8 times less than polyethelene foam, and 5 times less than completely empty air gap. Barriers have been designed and manufactured down to width of human hair...
Read More »Concept Group's Shaped Vacuum Protects Patients During Cryosurgery
Extraordinarily Thin Insulon® Thermal Barrier Protects Healthy Tissue While Cryosurgical Probe Destroys Tumors. West Berlin NJ Surgeons have long known that extreme cold temperature can destroy tumors and other unhealthy tissue. Ideally, such cold would be delivered by cryosurgical probe, to avoid the need for major invasive surgery. But how could surgeons maneuver a -321°F probe to the...
Read More »Concept Group's Shaped Vacuum Protects Patients During Cryosurgery
Extraordinarily Thin Insulon-® Thermal Barrier Protects Healthy Tissue While Cryosurgical Probe Destroys Tumors. West Berlin NJ  Surgeons have long known that extreme cold temperature can destroy tumors and other unhealthy tissue. Ideally, such cold would be delivered by cryosurgical probe, to avoid the need for major invasive surgery. But how could surgeons maneuver a -321°F probe...
Read More »Effective Thermal Insulator can be made thinner than human hair.
As small-scale insulator, Insulon-® 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...
Read More »Effective Thermal Insulator can be made thinner than human hair.
As small-scale insulator, InsulonÃ-® barrier uses Hyper-Deep Vacuum™ technology for optimal efficiency. Vacuum that results from how material is taken out stops thermal conduction. Able to beÃÂ 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,ÃÂ but...
Read More »Thermal Insulation stops heat conduction in tight spaces.
Based on Insulon-® Shaped-Vacuum™ technology, Thermal Barrier Insulation uses power of extremely deep, shaped vacuum to block conductive transfer of thermal energy. Because sizes and shapes are virtually unlimited, potential applications span wide range of industries, including medical devices, electronics, military, and aerospace uses. Â
Read More »Thermal Barrier blocks heat with Hyper-Deep Vacuum(TM).
Serving as small-scale thermal insulator, Insulon-® Thermal Barrier uses extremely deep, shaped vacuum to block conductive transfer of thermal energy. Shaped-vacuum barrier allows 60 times less thermal conduction than nylon insulation, 8 times less than polyethelene foam, and 5 times less than completely empty air gap. Barriers have been designed and manufactured down to width of human hair with...
Read More »Thermal Insulation stops heat conduction in tight spaces.
Based on InsulonÃ-® Shaped-Vacuum™ technology, Thermal Barrier Insulation uses power of extremely deep, shaped vacuum to block conductive transfer of thermal energy. Because sizes and shapes are virtually unlimited, potential applications span wide range of industries, including medical devices, electronics, military, and aerospaceÃÂ uses. ÃÂ
Read More »Thermal Barrier blocks heat with Hyper-Deep Vacuum(TM).
Serving as small-scale thermal insulator, InsulonÃ-® Thermal Barrier uses extremely deep, shaped vacuum to block conductive transfer of thermal energy. Shaped-vacuum barrier allows 60 times less thermal conduction than nylon insulation, 8 times less than polyethelene foam, and 5 times less than completely empty air gap. Barriers have been designed and manufactured down to width of human hair...
Read More »Concept Group's Shaped Vacuum Protects Patients During Cryosurgery
Extraordinarily Thin Insulon® Thermal Barrier Protects Healthy Tissue While Cryosurgical Probe Destroys Tumors. West Berlin NJ Surgeons have long known that extreme cold temperature can destroy tumors and other unhealthy tissue. Ideally, such cold would be delivered by cryosurgical probe, to avoid the need for major invasive surgery. But how could surgeons maneuver a -321°F probe to the...
Read More »Concept Group's Shaped Vacuum Protects Patients During Cryosurgery
Extraordinarily Thin Insulon-® Thermal Barrier Protects Healthy Tissue While Cryosurgical Probe Destroys Tumors. West Berlin NJ  Surgeons have long known that extreme cold temperature can destroy tumors and other unhealthy tissue. Ideally, such cold would be delivered by cryosurgical probe, to avoid the need for major invasive surgery. But how could surgeons maneuver a -321°F probe...
Read More »Effective Thermal Insulator can be made thinner than human hair.
As small-scale insulator, Insulon-® 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...
Read More »Effective Thermal Insulator can be made thinner than human hair.
As small-scale insulator, InsulonÃ-® barrier uses Hyper-Deep Vacuum™ technology for optimal efficiency. Vacuum that results from how material is taken out stops thermal conduction. Able to beÃÂ 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,ÃÂ but...
Read More »