fluoroproducts

Listing

Electrowetting with M1604V

PFC 501A, 502A & 504A are one, two and four percent fluoropolymer solutions in low boiling point fluorosolvent (BP=56°C). Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC500-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 504A-coFS is a four percent fluoro-silane copolymer solution (BP=84°C) for coating glass, ceramic and metal surfaces. Thin films dry in a few minutes and bond after a few minutes at 120° C or after 24 hours at room temperature. Surface energy of the cured film depends on the substrate and can vary between 6 and 10 dynes/cm. Application by dip.

PFC 504A-coE5 is a four percent fluoro-epoxide oligomer in a low boiling point fluorosolvent (BP=56°C) having good adhesion to many substrates. Coatings may be cured using amines, anhydrides or catalysts (thermal or UV). Surface energy of cured films can vary between 6 and 10 dynes/cm. Epoxy equivalent weight is 2800. Epoxy silanes at 1-2% are recommended on oxide surfaces.

PFC 501AFA, 502AFA & 504AFA are one, two and four percent fluorinated copolymer solutions in fluorosolvent (BP=56°C) that are optimized for adhesion to plastics such as vinyl and polycarbonate. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. May not be resistant to somenpolar organic solvents.

PFC 501IBA, 502IBA & 504IBA are one, two and four percent fluorinated copolymer solutions in fluorosolvent (BP=56°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC500-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 501LMA, 502LMA & 504LMA are one, two and four percent fluorinated copolymer solutions in fluorosolvent (BP=56°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC500-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 501TFH, 502TFH & 504TFH are one, two and four percent fluorinated copolymer solutions in fluorosolvent (BP=56°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC500-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 601A, 602A & 604A are one, two and four percent fluoropolymer solutions in 3M HFE 7100 fluorosolvent (BP=61°C). Thin films dry in seconds at room temperature to a surface energy of 8-10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC602A may replace 3M 722 and EGC-1700 and is recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 601AFA, 602AFA & 604AFA are one, two and four percent fluorinated copolymer solutions in 3M HFE 7100 fluorosolvent (BP=61°C) that are optimized for adhesion to plastics such as polycarbonate. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC600-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 601IBA, 602IBA & 604IBA are one, two and four percent fluorinated copolymer solutions in 3M HFE7100 fluorosolvent. (BP=61°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC600-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 601LMA, 602LMA & 604LMA are one, two and four percent fluorinated copolymer solutions in 3M HFE7100 fluorosolvent (BP=61°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC600-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 601TFH, 602TFH & 604TFH are one, two and four percent fluorinated copolymer solutions in 3M HFE7100 fluorosolvent (BP=61°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC600-series solutions may replace 3M FC722 and EGC-1700 and are recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 801A, 802A & 804A are one, two and four percent fluoropolymer solutions in fluorosolvent (BP=84°C). Thin films dry in minutes at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC802A may replace 3M FC722 and EGC-1700 and is recomended for dip application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 1301A, 1302A & 1304A are one, two and four percent fluoropolymer solutions in low boiling point fluorosolvent (BP=135°C). Thin films dry in a few hours at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC1300-series solutions may replace 3M FC722 and EGC-1700 and are recomended for spray or spin application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 1301IBA, 1302IBA & 1304IBA are one, two and four percent fluorinated copolymer solutions in fluorosolvent (BP=135°C) that have good adhesion to many plastics and metals. Thin films dry in seconds at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC1300-series solutions may replace 3M FC722 and EGC-1700 and are recomended for spray or spin application. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 1601A, 1602A & 1604A are one and four percent fluoropolymer solutions in high boiling point fluorosolvent (BP=160°C). Thin films dry in 2-3 hours at room temperature to a surface energy of about 10 dynes/cm. Warming to 90°C for 10 minutes optimizes adhesion and reduces the surface energy to about 6 dynes/cm. PFC1600-series solutions may replace 3M FC722 and EGC-1700 . The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces. Application by spray, brush, ink jet, pad print or spin. Boeing777 MT 34-023.pdf

PFC 1601V is a one percent fluoropolymer solution in fluorosolvent (BP=160°C). Thin films dry in 4-6 hours at room temperature to a surface energy of about 16 dynes/cm. Heating to 180°C for 30 minutes optimizes adhesion and reduces the surface energy to about 14 dynes/cm. PFC1601V is recomended for spin, spray or blott applications where extreme UV resistance is needed. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC 1604V is a four percent fluoropolymer solution in fluorosolvent (BP=160°C). Thin films dry in 4-6 hours at room temperature to a surface energy of about 16 dynes/cm. Heating to 180°C for 30 minutes optimizes adhesion and reduces the surface energy to about 14 dynes/cm. PFC1601V is recomended for spin, spray or blott applications where extreme UV resistance is needed. The no charge addition of 2 percent fluorosilane or fluorophosphate is recommended for application to oxide surfaces.

PFC M1604V is a four percent fluoropolymer solution in fluorosolvent (BP=160°C). Heating films to 180°C for 30 minutes produces solvent and uv resistant films with > 150° contact angles to water. PFC1601V is recomended for spin, spray or blott applications where extreme UV resistance is needed. Application by spray, brush, ink jet, pad print or spin. REF

PFC GH-Series hydrophobic inks are translucent or pigmented. Thin films cure in 30 minutes at 180°C, have 120° contact angles to water., and have good chemical resistance

PFC MH-Series super-hydrophobic screen inks are translucent or pigmented. Thin films cure in 3 minutes at 200°C, have contact angles to water in excess of 150° , and have good chemical resistance.

Samples - Cytonix provides free samples nationally and internationally, where recipients cover the cost of transportation.

Environmental - PFOA and PFOS are not used in the manufacture of Cytonix products. FluoroPel, FluoroSyl, Fluorothane and FluorN are manufactured using telomer and perfluoropolyether chemistry. All Cytonix products are TSCA, RoHS, REACH & WEEE compliant.

Trademarks & Patents - FluoroPel, Fluorothane, FluoroSyl and FluoroTAC are trademarks of Cytonix (1998-2009) Patents are issued or pending for the formulations listed on this page.