Therma-Tech thermal conductive polymer

Therma-TechTM Thermal Management Compounds Thermoplastic Solutions for Thermal Management Applications Product Description Therma-TechTM thermal management compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineered thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity by 50-100 times that of conventional plastics and can be used in a wide range of thermal management applications. Value Solution Therma-Tech compounds optimize performance under extreme conditions Used in the manufacture of the primary case and enclosure of a military computer, Therma-Tech compounds withstood the most demanding tactical environments, including repeated knocks and drops, electromagnetic issues, and temperature extremes. The excellent electrical, thermal and high-strength properties of Therma-Tech compounds were the most critical factors to its success. Additionally, the ability to conduct heat at nearly 100 times greater than traditional plastics enabled engineers to design a system that improved cooling performance, increased operating efficiency and reduce costs. Key Characteristics The primary features and benefits of Therma-Tech compounds are: Thermal Conductivity, up to 50-100 times the level of conventional plasticsLow Coefficient of Thermal Expansion, providing excellent dimensional stabilityCorrosion Resistance, withstanding oxidization for long-term use and benefitAdditional features include: Lower cost compared to machined componentsDesign flexibility and processing ease for more complex shapesDurable and lightweightPart consolidation and reduced assembly costs PolyOne GradeDescriptionSpecific GravityMolding ShrinkageFlexural ModulusTensile StrengthNotched IzodHDTThermal ConductivitySurface Resistivityg/cm3%MPaMPaJ/moC,1.82MPaW/mKOhm/sqASTM D792ASTM D570ASTM D790ASTM D638ASTM D256ASTM D648In planeASTM D257LCP(Liquid Crystal Polymer)LC-6000 TCthermally conductive electrically conductive 1.820.2-0.3160001403027518-20E0-E1LC-5000C TCthermally conductive electrically insulative 1.770.3-0.410500125352602-3E13-E14Polyamide(Nylon)NN-3000 TCthermally conductive electrically conductive Nylon 6/6 1.410.7-0.8930070402353-4E5-E6NN-5000C TCthermally conductiveelectrically insulative Nylon 6/6 1.540.3-0.411200100452605-6E13-E14NNC-5000 TCthermally conductive electrically conductive Nylon 6/6 1.580.3-0.4110001004525510-12E2-E3NY-4515 TC thermally conductive electrically conductive Nylon 6 1.590.2-0.3690086302106-7E2-E3NJ-6000 TCthermally conductiveelectrically conductive Nylon 12 1.610.1-0.22200014010018510-12E1-E2NJ-6000C TCthermally conductiveelectrically insulative Nylon 12 1.650.2-0.313800130351852-3E13-E14NJC-6000 TCthermally conductiveelectrically conductive Nylon 12 1.580.3-0.4165001305018510-12E1-E2NJC-7500 TCthermally conductiveelectrically conductive Nylon 12 1.680.3-0.4115001002518520-25E3-E4PPS(Polyphenylene Sulfide)SF-4500 TCthermally conductive electrically conductive 1.670.1-0.3180001401102609-11E2-E3SFC-5000 TCthermally conductive electrically conductive 1.700.3-0.519000150182601-2E1-E2SF-5000C TCthermally conductive electrically insulative 1.750.1-0.222000155122654-5E13-E14SF-6000 TCthermally conductive electrically conductive 1.820.4-0.5240001801228010-11E0-E1