CORIN® XLS Polyimide combines polyimide and nanocomposite technologies to deliver unsurpassed levels of optical clarity, oxidative stability, and stability to solar radiation. CORIN® XLS Polyimide received a prestigious R&D 100 Award in 2008, recognizing it as one of the most important inventions of the year. |
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LaRC™-CP1 Polyimide is a high performance material with a wide variety of uses in display applications, space structures, thermal insulation, electrical insulators, industrial tapes and advanced composites. |
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LaRC™-CP2 Polyimide is a high performance material with similar properties to LaRC™-CP1. LaRC™-CP2 exhibits lower optical absorptivity than CP1, lower glass transition temperature, and slightly different mechanical properties. |
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Essar™ Stretch 255 exhibits polyimide environmental stability and high temperature durability combined with a high level of elasticity and optical clarity. Essar™ Stretch 255 is solvent soluble and forms a tough, conformal coating. |
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Conductive Black LaRC™-CP1 polyimide is filled with carbon nanoparticles to produce a conductive black polyimide material with lower RF loss than other black and conductive black polyimides. CP1 is a space-rated colorless polyimide material designed by NASA and further developed by ManTech SRS Technologies. |
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White LaRC™-CP1 Polyimide (Non-Conductive) is a polyimide nanocomposite comprised of CP1 filled with inert white pigments to yield an essentially opaque white polyimide film. Typical polyimides are orange colored and highly absorptive when filled with white pigments, but since CP1 is intrinsically colorless the composite material is bright white in color. |
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Conductive White LaRC™-CP1 Polyimide is very similar to the White LaRC™-CP1 Polyimide (Non-Conductive), but slightly modified to exhibit ESD-level conductivity.
This high-temperature white polyimide is an ideal solution for applications requiring high temperature durability, static dissipation, and good light blocking. |
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Nexolve forms materials into thin films with homogenous mechanical and optical properties with an extremely smooth surface. Such films are termed “Optical Quality” and were developed primarily to minimize wavefront distortion through the material for imaging applications. |
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Nexolve can adjust or combine many of the properties of existing materials or make adjustments to these properties to develop a new material to fulfill a wide range of customer needs. Many products manufactured by Nexolve are the direct result of specific customer requests for a modified or new type of material not currently offered. |
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