Nano Technology
First and Only Patented Nano-Ceramic Film
After six years of intensive research and development, US patent No. 6,188,512 Dual Titanium Nitride Layers For Solar Control was granted in February 2001.
The combination of TIN layers selectively transmits a higher percentage of visible light than near infra-red energy, with a low visible light reflection. Three times more Infra-Red Rejection (IRR) than dyed film. The unique optical property of Transition Metal Nitrides in thin film for spectrally selective performance was first explored by Carl Ribbing and co-workers in Uppsala University, Sweden.
Titanium Nitride-a high performance refractory, super durable composition is capable of rejecting over 3 times more infra-red heat than conventional dyed products. Using just a single-layer Ceramic 50 against a dyed Charcoal film demonstrated an IR rejection of 67% while dyed film achieved only 19% rejection rate.
After six years of intensive research and development, US patent No. 6,188,512 Dual Titanium Nitride Layers For Solar Control was granted in February 2001.
The combination of TIN layers selectively transmits a higher percentage of visible light than near infra-red energy, with a low visible light reflection. Three times more Infra-Red Rejection (IRR) than dyed film. The unique optical property of Transition Metal Nitrides in thin film for spectrally selective performance was first explored by Carl Ribbing and co-workers in Uppsala University, Sweden.
Titanium Nitride-a high performance refractory, super durable composition is capable of rejecting over 3 times more infra-red heat than conventional dyed products. Using just a single-layer Ceramic 50 against a dyed Charcoal film demonstrated an IR rejection of 67% while dyed film achieved only 19% rejection rate.
25 Times More Durability Than Conventional Film
Most dark films are made of chemical dyes that will fade when exposed to external elements. In an accelerated weathering test on Xenon Arc, after 500 hours of exposure, the dyed film faded by 117% with Visible Light Transmission reading changing from 8.6% to 18.7%. The color migrated to a bronze tone soon after 4 days in Xenon Arc and QUV chamber, makes the film undesirable for any application. Huper Optik Nano-Ceramic films offer 25x more durability than conventional film. All Huper Optik products undergo the following stringent tests.
Multi Layered Design
The nano ceramic is applied as a thin coating of atoms, equivalent to .0000 00001 meters, through a reactive plasma process.
Ceramic is a material with many industrial uses. It's known for being extremely durable and able to persever in the harshest environments, like coastal areas with high moisture and air salinity.
Most dark films are made of chemical dyes that will fade when exposed to external elements. In an accelerated weathering test on Xenon Arc, after 500 hours of exposure, the dyed film faded by 117% with Visible Light Transmission reading changing from 8.6% to 18.7%. The color migrated to a bronze tone soon after 4 days in Xenon Arc and QUV chamber, makes the film undesirable for any application. Huper Optik Nano-Ceramic films offer 25x more durability than conventional film. All Huper Optik products undergo the following stringent tests.
Multi Layered Design
The nano ceramic is applied as a thin coating of atoms, equivalent to .0000 00001 meters, through a reactive plasma process.
Ceramic is a material with many industrial uses. It's known for being extremely durable and able to persever in the harshest environments, like coastal areas with high moisture and air salinity.
