| 205 | U.S. Zinc | 205 is a French Process in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemicals, paint/coating, ceramics industries, rubber, and in those applications where reasonable purity is required. 205 is a...view more 205 is a French Process in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemicals, paint/coating, ceramics industries, rubber, and in those applications where reasonable purity is required. 205 is available in a pelleted form (205P) and with surface treatment (205S). It has a surface area range of 4.0 to 6.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 205H | U.S. Zinc | 205H is a small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a greater surface area and is used by the paint, latex, plastic, and zinc chemicals industries and in applications where moderate...view more 205H is a small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a greater surface area and is used by the paint, latex, plastic, and zinc chemicals industries and in applications where moderate purity and greater reactivity are required. Grade 205H is available in a pelleted form (205HS) and with surface treatment (205HS). 205H has a surface area range of 6.0 to 8.5 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 205HSA | U.S. Zinc | 205HSA is an exceptionally small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a greater surface area and is used by the plastic, latex, and transparent rubber industries and in those applica...view more 205HSA is an exceptionally small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a greater surface area and is used by the plastic, latex, and transparent rubber industries and in those applications where great reactivity is required. 205HSA is obtainable with surface treatment (205HSA-S). It has a surface area range of 8.0 to 10.0 m2 /g, a specific gravity of 5.6, and an apparent density of 20 to 40 (pounds/ft3). view less | |
| 205L | U.S. Zinc | 205L is a large particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a lower surface area and is used by the paint and ceramics industries and in those applications where benefits result from larger...view more 205L is a large particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. It has a lower surface area and is used by the paint and ceramics industries and in those applications where benefits result from larger than average particles. Grade 205L is available in a pelleted form (205LP) and with surface treatment (205LS). 205L has a surface area range of 3.0 to 5.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 205XL | U.S. Zinc | 205XL is a large particle size French Process in powder form, statistically measured zinc oxide. 205XL is used by the electronics, coating, ceramics, and paint industries and in those applications which develop benefits from larger than average particles....view more 205XL is a large particle size French Process in powder form, statistically measured zinc oxide. 205XL is used by the electronics, coating, ceramics, and paint industries and in those applications which develop benefits from larger than average particles. It has a surface area range of 2.5 to 3.5 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 15 to 30. view less | |
| 210 | U.S. Zinc | 210 is a French Process in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemicals, rubber, tape/adhesives, oil additives, traffic paint, wire insulation, glass/ceramics, electrogalvanizing, brake li...view more 210 is a French Process in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemicals, rubber, tape/adhesives, oil additives, traffic paint, wire insulation, glass/ceramics, electrogalvanizing, brake lining, and agriculture industries and in applications where General purpose zinc oxide could be used. 210 is available in a pelleted form (210P) and with surface treatment (210S). It has a surface area range of 4.0 to 6.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 210E | U.S. Zinc | 210E is common purpose French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used in an assortment of applications, including electronics, brake lining, paint, zinc chemicals, coating, and rubber industrie...view more 210E is common purpose French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade is used in an assortment of applications, including electronics, brake lining, paint, zinc chemicals, coating, and rubber industries. 210E is available in pelleted form (210E-P) and with surface treatment (210ES). It has a surface area range of 4.0 to 6.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 210H | U.S. Zinc | 210H is a small particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a higher surface area and reactivity and is used by the latex, paint, plastic, and zinc chemicals industries. 210H is availab...view more 210H is a small particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a higher surface area and reactivity and is used by the latex, paint, plastic, and zinc chemicals industries. 210H is available in a pelleted form (210HP) and with surface treatment (210HS). It has a surface area range of 6.0 to 8.5 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| 210HSA | U.S. Zinc | 210HSA is an exceptionally small particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a higher surface area and reactivity and is used by the plastic, latex, and transparent rubber industries an...view more 210HSA is an exceptionally small particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a higher surface area and reactivity and is used by the plastic, latex, and transparent rubber industries and in applications where high reactivity is required. 210HSA is available with surface treatment (210HSA-S). It has a surface area range of 8 to 10 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40. view less | |
| 210L | U.S. Zinc | 210L is a large particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a lower surface area and is used by the ceramics and paint industries. 210L is available in a pelleted form (210LP) and with ...view more 210L is a large particle French Process, in powder form, statistically measured zinc oxide formed from zinc metal. This grade has a lower surface area and is used by the ceramics and paint industries. 210L is available in a pelleted form (210LP) and with surface treatment (210LS). It has a surface area range of 3.0 to 5.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| ABP-263 | Gelest, Incorporated | Amphiphilic silicone that has the ability to form stable water-in-oil emulsions allowing formulation of a wide range of gels and creams. | |
| AKT-855 | Gelest, Incorporated | Titanate catalyst for alkoxy and oxime neutral cure RTV's. | |
| AKT853 | Gelest, Incorporated | Titanate catalyst for alkoxy and oxime neutral cure RTV's. | |
| AKT865 | Gelest, Incorporated | Titanate catalyst for alkoxy and oxime neutral cure RTV's. | |
| AKT867 | Gelest, Incorporated | Catalyst for silicone condensation RTV's. | |
| ALT-143 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-173 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-192 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-213 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-233 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-251 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-263 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-292 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-563 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| ALT-652 | Gelest, Incorporated | Organic compatible silicone fluid with greatly improved lubrication characteristics, higher viscosity-temperature coefficient, lower compressibility and decreased oxidation stability when compared to polydimethylsiloxanes. | |
| AMS-132 | Gelest, Incorporated | Aminopropylmethylsiloxane-dimethylsiloxane copolymer. | |
| AMS-152 | Gelest, Incorporated | Aminopropylmethylsiloxane-dimethylsiloxane copolymer. | |
| AMS-162 | Gelest, Incorporated | Aminopropylmethylsiloxane-dimethylsiloxane copolymer. | |
| AMS-233 | Gelest, Incorporated | Aminoethylaminopropylmethylsiloxane-dimethylsiloxane copolymer. | |
| AMS-242 | Gelest, Incorporated | Aminoethylaminoisobutylmethylsiloxane-dimethylsiloxane copolymer. | |
| AQUAPHOBE™ CF | Gelest, Incorporated | Chlorine terminated polyfluoroalkylmethylsiloxane oligomer. The chlorines react with hydroxy and silanol groups of glass, siliceous surfaces and other metal oxide surfaces to form a chemically bound, low surface energy, fluorinated silicone surface. | |
| AQUAPHOBE™ CM | Gelest, Incorporated | Chlorine terminated polydimethylsiloxane oligomer. The chlorines react with hydroxy and silanol groups of glass, siliceous surfaces and other metal oxide surfaces to form a chemically bound polydimethylsiloxane "siliconized" surface. | |
| ATM-1112 | Gelest, Incorporated | Aminoethylaminopropylmethoxysiloxane-dimethylsiloxane copolymer. | |
| ATM-1322 | Gelest, Incorporated | Aminoethylaminopropylmethoxysiloxane-dimethylsiloxane copolymer. | |
| ATM-1322M50 | Gelest, Incorporated | Reactive silicone emulsion. | |
| AZO66 | U.S. Zinc | AZO66 is an exceptionally pure French Process, in powder form, statistically measured zinc oxide formed from zinc metal. AZO66 provides greater color and is vastly efficient in white or light colored goods. This grade is used in the zinc chemical, paint/c...view more AZO66 is an exceptionally pure French Process, in powder form, statistically measured zinc oxide formed from zinc metal. AZO66 provides greater color and is vastly efficient in white or light colored goods. This grade is used in the zinc chemical, paint/coating, ceramic, oil additive industries and in those applications where great purity is dire. Grade AZO66 is available in a pelleted form (AZO66P), in a treated pelleted form (AZO66PT), and with surface treatment (AZO66T). AZO66 has a surface area range of 4.0 to 6.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| AZO66L | U.S. Zinc | AZO66L is an exceptionally pure French Process, a large particle, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemical, paint, and coating industries and in those applications which stem from greater than norma...view more AZO66L is an exceptionally pure French Process, a large particle, statistically measured zinc oxide formed from zinc metal. This grade is used by the zinc chemical, paint, and coating industries and in those applications which stem from greater than normal high purity particles. Grade AZO66L is available in a pelleted form (AZO66LP) and with the surface treatment (AZO66LT). AZO66L has a surface area range of 3.0 to 5.0 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 50 to 85. view less | |
| AZO66XL | U.S. Zinc | AZO66XL is an exceptionally pure French Process, a large particle, statistically measured zinc oxide formed from zinc metal. This grade is used by the electronic, ceramic, paint, and coating industries and in those applications which stem from greater tha...view more AZO66XL is an exceptionally pure French Process, a large particle, statistically measured zinc oxide formed from zinc metal. This grade is used by the electronic, ceramic, paint, and coating industries and in those applications which stem from greater than normal high purity particles. AZO66XL has a surface area range of 2.5 to 3.5 m2 /g, a specific gravity of 5.6, and an apparent density (in powder form) of 20 to 40 and (in pellet form) of 15 to 30. view less | |
| AZO77H | U.S. Zinc | AZO77H is an exceptionally pure powder, small particle size French Process, statistically measured zinc oxide formed from zinc metal. It is used for the manufacture of various chemicals, in the plastic, paint, latex, and coating industries and in those ap...view more AZO77H is an exceptionally pure powder, small particle size French Process, statistically measured zinc oxide formed from zinc metal. It is used for the manufacture of various chemicals, in the plastic, paint, latex, and coating industries and in those applications where high purity and reactivity is required. Grade AZO77H is available with surface treatment (AZO77HT). It has a surface area range of 6.0 to 8.5 m2 /g, a specific gravity of 5.6, and an apparent density of 20 to 40 (lbs. /cu. Ft.). view less | |
| AZO77HSA | U.S. Zinc | AZO77HSA is an exceptionally small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. AZO77HSA was explicitly developed to have the highest viscosity, reactivity, purity, and fineness. This grade is used...view more AZO77HSA is an exceptionally small particle size French Process in powder form, statistically measured zinc oxide formed from zinc metal. AZO77HSA was explicitly developed to have the highest viscosity, reactivity, purity, and fineness. This grade is used in can sealants, latex compounds, zinc chemicals, plastics, paint/coating, and in the food can liner coating industry where the particularly fine particles freely convert certain accessible soluble into white sulfide, thus avoiding discoloration of food from sulfides of tin or iron. AZO77HSA is available with surface treatment (AZO77HSA-T), has a surface area range of 8.0 to 10.0 m2 /g, a specific gravity of 5.6, and an apparent density of 20 to 40 (lbs. /cu. Ft.). view less | |
| CMS-222 | Gelest, Incorporated | (Carbinol functional) methylsiloxane-dimethylsiloxane copolymer. | |
| CMS-626 | Gelest, Incorporated | (Carbinol functional) methylsiloxane-dimethylsiloxane copolymer. | |
| CMS-832 | Gelest, Incorporated | (Hydroxyalkyl functional) methylsiloxane-(3,4-diethoxyphenylpropyl) methylsiloxane-dimethylsiloxane terpolymer. | |
| DBE-224 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBE-621 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBE-712 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBE-814 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBE-821 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBE-C25 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DBE-U12 | Gelest, Incorporated | Acryloxy terminated ethyleneoxide dimethylsiloxane-ethyleneoxide ABA block copolymer. | |
| DBE-U22 | Gelest, Incorporated | Acryloxy terminated ethyleneoxide dimethylsiloxane-ethyleneoxide ABA block copolymer. | |
| DBL-C31 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DBP-534 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBP-732 | Gelest, Incorporated | Polyalkylene oxide modified silicone widely used as a surfactant and emulsifier. | |
| DBP-C22 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DES-T03 | Gelest, Incorporated | Polydiethylsiloxane that offers improved metal-metal lubrication and low temperature properties when compared to polydimethylsiloxanes. | |
| DES-T11 | Gelest, Incorporated | Polydiethylsiloxane that offers improved metal-metal lubrication and low temperature properties when compared to polydimethylsiloxanes. | |
| DES-T12 | Gelest, Incorporated | Polydiethylsiloxane that offers improved metal-metal lubrication and low temperature properties when compared to polydimethylsiloxanes. | |
| DES-T15 | Gelest, Incorporated | Polydiethylsiloxane that offers improved metal-metal lubrication and low temperature properties when compared to polydimethylsiloxanes. | |
| DES-T23 | Gelest, Incorporated | Polydiethylsiloxane that offers improved metal-metal lubrication and low temperature properties when compared to polydimethylsiloxanes. | |
| DMS-A11 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A12 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A15 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A21 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A211 | Gelest, Incorporated | N-ethylaminoisobutyl terminated polydimethylsiloxane. | |
| DMS-A214 | Gelest, Incorporated | N-ethylaminoisobutyl terminated polydimethylsiloxane. | |
| DMS-A31 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A32 | Gelest, Incorporated | Aminopropyl terminated polydimethylsiloxane. | |
| DMS-A32R | Gelest, Incorporated | Reduced volatility grade aminopropyl terminated polydimethylsiloxane. | |
| DMS-B12 | Gelest, Incorporated | (Carboxyalkyl) terminated polydimethylsiloxane. | |
| DMS-B25 | Gelest, Incorporated | (Carboxyalkyl) terminated polydimethylsiloxane. | |
| DMS-B31 | Gelest, Incorporated | (Carboxyalkyl) terminated polydimethylsiloxane. | |
| DMS-C15 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DMS-C16 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DMS-C21 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DMS-C23 | Gelest, Incorporated | Carbinol (hydroxyl) terminated polydimethylsiloxane. | |
| DMS-D33 | Gelest, Incorporated | Diacetoxymethyl terminated polydimethylsiloxane. | |
| DMS-E09 | Gelest, Incorporated | Epoxypropoxypropyl terminated polydimethylsiloxanes. | |
| DMS-E11 | Gelest, Incorporated | Epoxypropoxypropyl terminated polydimethylsiloxane. | |
| DMS-E12 | Gelest, Incorporated | Epoxypropoxypropyl terminated polydimethylsiloxane. | |
| DMS-E21 | Gelest, Incorporated | Epoxypropoxypropyl terminated polydimethylsiloxane. | |
| DMS-EC13 | Gelest, Incorporated | Epoxycyclohexylethyl terminated polydimethylsiloxane. | |
| DMS-H03 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-H11 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-H21 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-H25 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-H31 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-H41 | Gelest, Incorporated | Hydride terminated polydimethylsiloxane. | |
| DMS-K05 | Gelest, Incorporated | Chlorine terminated polydimethylsiloxane. | |
| DMS-K13 | Gelest, Incorporated | Chlorine terminated polydimethylsiloxane. | |
| DMS-K26 | Gelest, Incorporated | Chlorine terminated polydimethylsiloxane. | |
| DMS-L21 | Gelest, Incorporated | Chloromethyl terminated polydimethylsiloxane. | |
| DMS-N05 | Gelest, Incorporated | Dimethylamino terminated polydimethylsiloxane. | |
| DMS-R05 | Gelest, Incorporated | Methacryloxypropyl terminated polydimethylsiloxane. | |
| DMS-R11 | Gelest, Incorporated | Methacryloxypropyl terminated polydimethylsiloxane. | |
| DMS-R18 | Gelest, Incorporated | Methacryloxypropyl terminated polydimethylsiloxane. | |
| DMS-R22 | Gelest, Incorporated | Methacryloxypropyl terminated polydimethylsiloxane. | |
| DMS-R31 | Gelest, Incorporated | Methacryloxypropyl terminated polydimethylsiloxane. | |
| DMS-S12 | Gelest, Incorporated | Silanol terminated polydimethylsiloxane. | |
| DMS-S14 | Gelest, Incorporated | Silanol terminated polydimethylsiloxane. |
