DMS-S51 | Gelest, Incorporated | Silanol terminated polydimethylsiloxane. | |
DMS-T00 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T01 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T01.5 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T02 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T03 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T05 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T07 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T07R | Gelest, Incorporated | Volatile, low molecular weight polydimethylsiloxane generally acceptable for polymer contacting applications. | |
DMS-T11 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T12 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T12R | Gelest, Incorporated | Volatile, low molecular weight polydimethylsiloxane generally acceptable for polymer contacting applications. | |
DMS-T15 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T21 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T21M50 | Gelest, Incorporated | Easy to use, water-dilutable, fine particle dispersion of conventional polydimethylsiloxane fluid. Employed as a release agent and lubricant in a variety of rubber and plastic applications. | |
DMS-T21R | Gelest, Incorporated | Volatile, low molecular weight polydimethylsiloxane generally acceptable for polymer contacting applications. | |
DMS-T22 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T23 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T23E | Gelest, Incorporated | Volatile, low molecular weight dimethylsiloxane suitable for extreme vacuum applications including systems deployed in space exploration and communication. | |
DMS-T25 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T31E | Gelest, Incorporated | Volatile, low molecular weight dimethylsiloxane suitable for extreme vacuum applications including systems deployed in space exploration and communication. | |
DMS-T31M50 | Gelest, Incorporated | Easy to use, water-dilutable, fine particle dispersion of conventional polydimethylsiloxane fluid. Employed as a release agent and lubricant in a variety of rubber and plastic applications. | |
DMS-T35 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T41 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T41.2 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T41.2E | Gelest, Incorporated | Volatile, low molecular weight dimethylsiloxane suitable for extreme vacuum applications including systems deployed in space exploration and communication. | |
DMS-T41M50 | Gelest, Incorporated | Easy to use, water-dilutable, fine particle dispersion of conventional polydimethylsiloxane fluid. Employed as a release agent and lubricant in a variety of rubber and plastic applications. | |
DMS-T43 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T46 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T51 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T51B20 | Gelest, Incorporated | Silicone fluid blend. | |
DMS-T51M35 | Gelest, Incorporated | Easy to use, water-dilutable, fine particle dispersion of conventional polydimethylsiloxane fluid. Employed as a release agent and lubricant in a variety of rubber and plastic applications. | |
DMS-T53 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T56 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T61 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T63 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T72 | Gelest, Incorporated | General purpose silicone composed of polymer chains with unique flexibility. It has virtually no energy barrier for rotation resulting in one of the lowest glass-transition temperatures of any polymer. | |
DMS-T72B15 | Gelest, Incorporated | Silicone fluid blend. | |
DMS-U22 | Gelest, Incorporated | (3-Acryloxy-2-hydroxypropyl) terminated polydimethylsiloxane. | |
DMS-V00 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V03 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V05 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxanes. | |
DMS-V21 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V22 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V25 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V25R | Gelest, Incorporated | Reduced volatility grade vinyl terminated polydimethylsiloxane. | |
DMS-V31 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V31S15 | Gelest, Incorporated | Fumed silica reinforced vinyl terminated polydimethylsiloxane. | |
DMS-V33 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V35 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V35R | Gelest, Incorporated | Reduced volatility grade vinyl terminated polydimethylsiloxane. | |
DMS-V41 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V42 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V46 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-V52 | Gelest, Incorporated | Vinyl terminated polydimethylsiloxane. | |
DMS-XE11 | Gelest, Incorporated | Ethoxy terminated polydimethylsiloxane. | |
DMS-XM11 | Gelest, Incorporated | Methoxy terminated polydimethylsiloxane. | |
DMS-Z21 | Gelest, Incorporated | Succinic anhydride terminated polydimethylsiloxane. | |
EBP-234 | Gelest, Incorporated | (2-3% epoxycyclohexylethylmethylsiloxane)(10-15% methoxypolyalkyleneoxymethylsiloxane)-(dimethylsiloxane) terpolymer. | |
EDV-2025 | Gelest, Incorporated | Vinyl terminated diethylsiloxane-dimethylsiloxane copolymer. | |
EMS-232 | Gelest, Incorporated | (Epoxycyclohexylethylmethylsiloxane) dimethylsiloxane copolymer. | |
EMS-323 | Gelest, Incorporated | (Epoxycyclohexylethylmethylsiloxane) dimethylsiloxane copolymer. | |
FMS-121 | Gelest, Incorporated | Fluorosilicone fluid that is useful in a wide range of aggressive service environments. Has a number of unique applications due to its chemical and solvent resistance to lubricity. | |
FMS-123 | Gelest, Incorporated | Fluorosilicone fluid that is useful in a wide range of aggressive service environments. Has a number of unique applications due to its chemical and solvent resistance to lubricity. | |
FMS-131 | Gelest, Incorporated | Fluorosilicone fluid that is useful in a wide range of aggressive service environments. Has a number of unique applications due to its chemical and solvent resistance to lubricity. | |
FMS-141 | Gelest, Incorporated | Fluorosilicone fluid that is useful in a wide range of aggressive service environments. Has a number of unique applications due to its chemical and solvent resistance to lubricity. | |
FMS-221 | Gelest, Incorporated | Fluorosilicone fluid that is useful in a wide range of aggressive service environments. Has a number of unique applications due to its chemical and solvent resistance to lubricity. | |
FMS-9921 | Gelest, Incorporated | Silanol terminated polytrifluoropropylmethylsiloxane. | |
FMV-4031 | Gelest, Incorporated | Vinyl terminated trifluoropropylmethylsiloxane-dimethylsiloxane copolymer. | |
GELEST GEL D200 | Gelest, Incorporated | Temporarily deformable low penetration gel with typical dimethylsilicone properties. | |
GELEST GEL D300 | Gelest, Incorporated | Temporarily deformed medium penetration gel with typical dimethylsilicone properties. | |
GELEST GEL F065 | Gelest, Incorporated | Temporarily deformable material with fluorosilicone properties, providing fuel resistant properties and a low refractive index. The one part addition cure system is technically achieved by incorporating a fugitive inhibitor to the catalyzed mix. | |
GELEST GEL P065 | Gelest, Incorporated | Temporarily deformable material with excellent low temperature properties. It performs as a dielectric gel -115 to 235 degrees Celsius. | |
GELEST RG™ 01 | Gelest, Incorporated | Flexible, clear molding and encapsulation compound. The moderate viscosity of the catalyzed mix and long pot-life at room temperature make this extremely useful in micro-contact printing, prototype and small production run applications. | |
GELEST RG™ 02 | Gelest, Incorporated | Clear to translucent molding and encapsulation compound with greater adsorption of hydrocarbons than conventional silicons making it able to transfer a wider variety range of chemicals for self-assembly techniques. | |
HAM-301 | Gelest, Incorporated | Methylhydrosiloxane-octylmethylsiloxane copolymer. | |
HAM-3012 | Gelest, Incorporated | Methylhydrosiloxane-octylmethylsiloxane terpolymer. | |
HARDSIL™ AM | Gelest, Incorporated | Primerless silicone resin dispersed in a mixture of alcohols including methanol, n-butanol and isopropanol. | |
HARDSIL™ AP | Gelest, Incorporated | Primerless phenyl modified silicone dispersed in xylene for continuous use at temperatures up to 360 degrees Celsius. | |
HARDSIL™ AR | Gelest, Incorporated | Primerless modified phenyl silicone resin dispersed in xylene for continuous use at temperatures up to 325 degrees Celsius. | |
HARDSIL™ CC | Gelest, Incorporated | Peroxide curable solventless silicone resin supplied with catalyst. | |
HDP-111 | Gelest, Incorporated | Hydride terminated polyphenyl-(dimethylhydrosiloxy)siloxane. | |
HES-992 | Gelest, Incorporated | Triethylsiloxy terminated polyethylhydrosiloxane. | |
HMS-013 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-031 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-064 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-071 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-082 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-151 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-301 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-501 | Gelest, Incorporated | Trimethylsiloxy terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HMS-991 | Gelest, Incorporated | Trimethylsiloxy terminated polymethylhydrosiloxane. | |
HMS-992 | Gelest, Incorporated | Trimethylsiloxy terminated polymethylhydrosiloxane. | |
HMS-993 | Gelest, Incorporated | Trimethylsiloxy terminated polymethylhydrosiloxane. | |
HMS-H271 | Gelest, Incorporated | Hydride terminated methylhydrosiloxane-dimethylsiloxane copolymer. | |
HPM-502 | Gelest, Incorporated | Hydride terminated methylhydrosiloxane-phenylmethylsiloxane copolymer. | |
HQM-105 | Gelest, Incorporated | Hydride Q resin. | |
HQM-107 | Gelest, Incorporated | Hydride Q resin. | |
JONCRYL® 1685-A | BASF Dispersions & Resins | Joncryl® 1685-A is designed for excellent heat resistance in water-based overprint varnishes and inks providing excellent adhesion to a variety of substrates while also providing good block resistance. | |
JONCRYL® U 4501 | BASF Dispersions & Resins | JONCRYL® U 4501 is a self-crosslinking, aliphatic polyurethane dispersion designed for use in wood topcoats. The dispersion is characterized by its final hardness and exceptional scratch resistance. The dispersion is free of both triethylamine and NMP. Ad...voir plus JONCRYL® U 4501 is a self-crosslinking, aliphatic polyurethane dispersion designed for use in wood topcoats. The dispersion is characterized by its final hardness and exceptional scratch resistance. The dispersion is free of both triethylamine and NMP. Additionally, the low minimum film forming temperature and low solvent demand allows formulators to achieve low VOC coatings. With its broad acrylic dispersion compatibility, JONCRYL U 4501 can be easily blended with WB acrylic resins such as JONCRYL 9530-A to achieve higher levels of scratch, mar, and abrasion resistance, without many of the potential drawbacks of PUD blends. voir moins |