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Gelest, Inc. Datasheets for Industrial Adhesives

Industrial adhesives consist of hot melt adhesives, epoxy adhesives, polyurethane adhesives, sealants, thermoset adhesives, UV curing adhesives, silicon adhesives, acrylic adhesives and other related industrial products.
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Product Name Notes
α-monoVINYL-Ω-monoHY DRIDE TERMINATED POLYDIMETHYLSILOXANE , 1000 cSt
α-monoVINYL-Ω-monoHY DRIDE TERMINATED POLYDIMETHYLSILOXANE , 150-250 cSt
α-monoVINYL-Ω-monoHY DRIDE TERMINATED POLYDIMETHYLSILOXANE , 40-60 cSt
α-monoVINYL-monoPHEN YL-Ω-monoHYDRIDE TERMINATED POLYDIMETHYLSILOXANE , 20 cSt
Additional Properties Hardness High Safety Packaging Under None
Additional Properties Hardness Low Safety Packaging Under Nitrogen
Additional Properties Hardness Medium Application Aplication and reference data Reference 1. Inglis, D. et al. Biomicrofluidics 2010, 4, 26504. Safety Packaging Under Nitrogen 2-Part 10:1 Kit 100 g SpeedMixer™ Kit...
Additional Properties Hydrolytic Sensitivity 0: forms stable aqueous solutions Safety Packaging Under Nitrogen PEGylated Silicone, Trisiloxane (559-691 g/mol) PEO, Trisiloxane termination utilized for hydrophilic surface modification PEGylation reagent "Super-wetter", surface...
Additional Properties Hydrolytic Sensitivity 0: forms stable aqueous solutions Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Application Reagent for vinylations via cross-coupling protocols.1,2 Reference 1. Denmark, S. E.; Wang, Z. J. Organomet. Chem. 2001,...
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Application Sila-hydrocarbon lubricant.1 Reference 1. Tamborski, C. et al. Ind. Eng. Chem. 1983, 22, 172. Safety Packaging Under...
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Safety Hazard Info oral rat, LD50: >1,000 mg/kg Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Surface Tension (mN/m) 18 Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 1: no significant reaction with aqueous systems Surface Tension (mN/m) 27.2 Safety Hazard Info oral rat, LDLo: >34,500 mg/kg Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 3: reacts with aqueous base Application Cyclic monomer- undergoes hydrosilylation reactions.1 Forms hybrid inorganic-organic polymers with dienes suitable for circuit board resins.2 Forms gate...
Additional Properties Hydrolytic Sensitivity 3: reacts with aqueous base Application Forms derivatives suitable for composite dental materials.1 Reference 1. Sellinger, A. et al. Chem. Mater. 1996, 8, 1592. Safety...
Additional Properties Hydrolytic Sensitivity 3: reacts with aqueous base Safety Packaging Under Nitrogen Store Cold
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Application Review of synthetic utility.1 Modifier for Pt-catalyst in 2-component RTVs.2 Core molecule for dendrimers.3...
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Safety Hazard Info oral rat, LD50: >2,000 mg/kg Packaging Under Nitrogen PEGylated Silicone, Trisiloxane (600-750 g/mol) PEO, PEG,...
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Safety Hazard Info oral rat, LD50: >2000mg/kg Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Safety Packaging Under Nitrogen PEGylated Silicone, Trisiloxane (550-650 g/mol) PEO, PEG, Hydroxyl terminated trisiloxane utilized for hydrophilic surface...
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 4: no reaction with water under neutral conditions Surface Tension (mN/m) 23.8 Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 7: reacts slowly with moisture/water Application Forms charge neutral coatings on CdSe quantum dots which conujugate DNA.1 Reference 1. Parak, W. et al. Chem. Mater.
Additional Properties Hydrolytic Sensitivity 7: reacts slowly with moisture/water Application Forms PEGylated glass surfaces suitable for capillary electrophoresis.1 Reference 1. Razunguzwa, T. et al. Anal. Chem. 2006, 78, 4326.
Additional Properties Hydrolytic Sensitivity 7: reacts slowly with moisture/water Safety Packaging Under Nitrogen
Additional Properties Hydrolytic Sensitivity 7: reacts slowly with moisture/water Surface Tension (mN/m) 26.7 Safety Hazard Info oral rat, LD50: >22,000 mg/kg Packaging Under Nitrogen
Additional Properties Percent Volatiles (%) 0.5 Safety Packaging Under Nitrogen
Additional Properties Percent Volatiles (%) 3 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 15.9 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 17.4 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 18 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 18.7 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 19.2 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 19.7 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 19.9 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 20.1 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 20.6 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 20.8 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 20.9 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.1 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.2 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.3 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.4 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.5 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 21.6 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 22.6 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 22.8 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 23.1 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 23.6 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 23.7 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 23.8 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 24.5 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 24.8 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 25 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 25.7 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 26 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 26.1 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 27 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 28.3 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 28.5 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 28.7 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 28.8 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 30.4 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 32 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 32.3 Safety Packaging Under Nitrogen
Additional Properties Surface Tension (mN/m) 36.5 Safety Packaging Under Nitrogen Thermal Silicone Fluid High phenyl content fluids are utilized as heat-exchange fluids, dielectric coolants, impregnants for sintered metal bearing, and...
Additional Properties Surface Tension (mN/m) 37.3 Safety Packaging Under Nitrogen Thermal Silicone Fluid High phenyl content fluids are utilized as heat-exchange fluids, dielectric coolants, impregnants for sintered metal bearing, and...
Additional Properties Surface Tension (mN/m) 39.5 Safety Packaging Under Nitrogen
Application Bicycloheptenyl terminated silicones undergo ring-opening metathesis polymerization (ROMP) reactions.1,2 Reference 1. Finkelstein, E. 10th Int'l Organosilicone Symp. Proc. 1993, 120. 2. Angeletakis, C. et al. U.S. Patent 6,455,029,...
Application Component in flexible optical waveguides.1 Reference 1. Bichler, S. et al. Optical Materials, 2012, 34, 772. Safety Packaging Under Nitrogen
Application Crosslinker for gradient modulus polymers.1 Reference 1. Klaussen, K. et al. Polymer, 2014, 55, 29. Safety Packaging Under Nitrogen
Application Employed as a coupling agent for polyamides.1 In combination with glutaraldehyde immobilizes enzymes.2 Reference 1. Arkles, B. et al. SPI 42nd Composite Inst. Proc., 21-C, 1987 2.
Application Employed in CVD of silicon carbonitride films.1 Forms polycarbosilanes at elevated temperature.2 Reference 1. Scarlete, M. et al. US Patent 7,396,563, 2008. (label licensed Gelest Product) 2.
Application Employed in preparation of ceramic fibers.1 Reference 1. Yajima, S. et al. Nature 1977, 266, 521. Safety Packaging Under Nitrogen
Application Forms clear aerogels.1 Reference 1. Tillotson, T. et al. In Better Ceramics Through Chemistry IV; MRS Proc. 1990; Vol. 180, p.309. Safety Packaging Under Nitrogen
Application Forms flexible polymer for 2 photon patterning of waveguides.1 Reference 1. Bichler, S. et al. Optical Materials, 2012, 34, 772. Safety Packaging Under Nitrogen PDV-1635: Vinyl Terminated Diphenylsiloxane-Dim...
Application High oxygen permeability.1 Reference 1. Masuda, Y. et al. J. Am. Chem. Soc. 1983, 105, 7473. Safety Packaging Under Nitrogen
Safety
Safety Hazard Info oral rat, LD50: 12,270 mg/kg Packaging Under Nitrogen
Safety Packaging Under Nitrogen DMS-H03: Hydride Terminated PDMS, 2-3 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H05: Hydride Terminated PDMS, 4-6 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H11: Hydride Terminated PDMS, 7-10 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H21: Hydride Terminated PDMS, 100 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H25: Hydride Terminated PDMS, 500 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H31: Hydride Terminated PDMS, 1,000 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-H41: Hydride Terminated PDMS, 10,000 cSt (Telechelic Functional Fluid) Hydride terminated silicones are chain extenders for vinyl-addition silicones, enabling low-viscosity, high elongation formulations. They are also...
Safety Packaging Under Nitrogen DMS-S12: Silanol Terminated PDMS, 16-32 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S14: Silanol Terminated PDMS, 35-45 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S15: Silanol Terminated PDMS, 45-85 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S21: Silanol Terminated PDMS, 90-120 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S27: Silanol Terminated PDMS, 700-800 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S31: Silanol Terminated PDMS, 1,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S32: Silanol Terminated PDMS, 2,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S33: Silanol Terminated PDMS, 3,500 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S35: Silanol Terminated PDMS, 5,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S42: Silanol Terminated PDMS, 18,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S45: Silanol Terminated PDMS, 50,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-S51: Silanol Terminated PDMS, 90,000-150,000 cSt (Telechelic Functional Fluid) Terminal silanol groups render polydimethylsiloxane s susceptible to condensation under both mild acid and base conditions. They...
Safety Packaging Under Nitrogen DMS-V00: Vinyl Terminated PDMS, 0.7 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V00 Properties Viscosity: 0.7...
Safety Packaging Under Nitrogen DMS-V03: Vinyl Terminated PDMS, 2-3 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V03 Properties Viscosity: 2-3...
Safety Packaging Under Nitrogen DMS-V05: Vinyl Terminated PDMS, 4-8 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V05 Properties Viscosity: 4-8...
Safety Packaging Under Nitrogen DMS-V21: Vinyl Terminated PDMS, 100 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V21 Properties Viscosity: 100...
Safety Packaging Under Nitrogen DMS-V22: Vinyl Terminated PDMS, 200 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V22 Properties Viscosity: 200...
Safety Packaging Under Nitrogen DMS-V25: Vinyl Terminated PDMS, 500 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V25 Properties Viscosity: 500...
Safety Packaging Under Nitrogen DMS-V25R: Vinyl Terminated PDMS, Reduced Volatility, 500 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V25R Properties...
Safety Packaging Under Nitrogen DMS-V31: Vinyl Terminated PDMS, 1,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V31 Properties Viscosity: 1,000...
Safety Packaging Under Nitrogen DMS-V33: Vinyl Terminated PDMS, 3,500 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V33 Properties Viscosity: 3,500...
Safety Packaging Under Nitrogen DMS-V34: Vinyl Terminated PDMS, 4,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V34 Properties Viscosity: 4,000...
Safety Packaging Under Nitrogen DMS-V35: Vinyl Terminated PDMS, 5,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V35 Properties Viscosity: 5,000...
Safety Packaging Under Nitrogen DMS-V35R: Vinyl Terminated PDMS, Reduced Volatility, 5,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V35R Properties...
Safety Packaging Under Nitrogen DMS-V41: Vinyl Terminated PDMS, 10,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V41 Properties Viscosity: 10,000...
Safety Packaging Under Nitrogen DMS-V42: Vinyl Terminated PDMS, 20,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V42 Properties Viscosity: 20,000...
Safety Packaging Under Nitrogen DMS-V43: Vinyl Terminated PDMS, 30,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V43 Properties Viscosity: 30,000...
Safety Packaging Under Nitrogen DMS-V46: Vinyl Terminated PDMS, 60,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V46 Properties Viscosity: 60,000...
Safety Packaging Under Nitrogen DMS-V51: Vinyl Terminated PDMS, 100,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymers are most often employed in 2-part addition cure silicone elastomers. DMS-V51 Properties Viscosity: 100,000...
Safety Packaging Under Nitrogen DMS-V52: Vinyl Terminated PDMS, 165,000 cSt (Telechelic Functional Fluid) Vinyl terminated polymrs are most often employed in 2-part addition cure silicone elastomers. DMS-V52 Properties Viscosity: 165,000...
Safety Packaging Under Nitrogen EDV-2022: Vinyl Terminated Diethylsiloxane-Dime thylsiloxane Copolymer (Telechelic Functional Fluid) Diethylsiloxane copolymers offer better hydrocarbon compatibility (greater solubility) and higher refractive index than analogous dimethylsiloxane homopolymers. EDV-2022...
Safety Packaging Under Nitrogen FMV-4035: Vinyl Terminated TrifluoropropylMethy lsiloxane-Dimethylsi loxane Copolymer (Telechelic Functional Fluid) Vinyl functional fluorosilicones offer greater solvent resistance (lower hydrocarbon solubility) and lower refractive index than analogous...
Safety Packaging Under Nitrogen FMV-4042: Vinyl Terminated TrifluoropropylMethy lsiloxane-Dimethylsi loxane Copolymer (Telechelic Functional Fluid) Vinyl functional fluorosilicones offer greater solvent resistance (lower hydrocarbon solubility) and lower refractive index than analogous...
Safety Packaging Under Nitrogen MCR-V21: monoVinyl Terminated Polydimethylsiloxane (Monofunctional Fluid) Mono-vinyl functional PDMS macromers are monodisperse (low PDI) fluids that can be used as components in silicone gels and modifiers...
Safety Packaging Under Nitrogen MCR-V25: monoVinyl Terminated Polydimethylsiloxane (Monofunctional Fluid) Mono-vinyl functional PDMS macromers are monodisperse (low PDI) fluids that can be used as components in silicone gels and modifiers...
Safety Packaging Under Nitrogen MCR-V41: monoVinyl Terminated Polydimethylsiloxane (Monofunctional Fluid) Mono-vinyl functional PDMS macromers are monodisperse (low PDI) fluids that can be used as components in silicone gels and modifiers...
Safety Packaging Under Nitrogen PDV-0325: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-0331: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-0346: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-0525: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-0535: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-0541: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-1625: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-1631: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen PDV-1641: Vinyl Terminated Diphenylsiloxane-Dim ethylsiloxane Copolymer (Telechelic Functional Fluid) These fluids are most often employed in 2-part addition cure silicone elastomers where special thermal or optical...
Safety Packaging Under Nitrogen Pendant Functional Fluid; Methyl Hydrosiloxane-Dimeth ylsiloxane Copolymer MethylHydrosiloxane copolymers are the primary cross linkers for 2-part vinyl-addition silicones and intermediates for functional copolymers. Siloxane-Based Silane Reducing...
Safety Packaging Under Nitrogen Polar Endcapped Symmetric Macromers Macromers with polar terminations can be used as additives into more polar organic resins to add silicone characteristics with reduced likelihood of...
Safety Packaging Under Nitrogen Siloxane-Based Silane Reducing Agent Organosilanes are hydrocarbon-like and possess the ability to serve as both ionic and free-radical reducing agents. These reagents and their reaction by-products...
Safety Packaging Under Nitrogen
Safety Packaging Under Nitrogen Store Below 5 ˚C DMS-R05: Methacryloxypropyl Terminated PDMS, 4-6 cSt (Telechelic Functional Fluid) Methacrylate and Acrylate functional siloxanes undergo the same reactions generally associated with methacrylates...
Safety Packaging Under Nitrogen Store Below 5 ˚C DMS-R11: Methacryloxypropyl Terminated PDMS, 8-14 cSt (Telechelic Functional Fluid) Methacrylate and Acrylate functional siloxanes undergo the same reactions generally associated with methacrylates...
Safety Packaging Under Nitrogen Store Below 5 ˚C DMS-R18: Methacryloxypropyl Terminated PDMS, 50-90 cSt (Telechelic Functional Fluid) Methacrylate and Acrylate functional siloxanes undergo the same reactions generally associated with methacrylates...
Safety Packaging Under Nitrogen Store Below 5 ˚C DMS-R22: Methacryloxypropyl Terminated PDMS, 125-250 cSt (Telechelic Functional Fluid) Methacrylate and Acrylate functional siloxanes undergo the same reactions generally associated with methacrylates...
Safety Packaging Under Nitrogen Store Below 5 ˚C DMS-R31: Methacryloxypropyl Terminated PDMS, 1,000 cSt (Telechelic Functional Fluid) Methacrylate and Acrylate functional siloxanes undergo the same reactions generally associated with methacrylates...
Safety Packaging Under Nitrogen Store Below 5 ˚C
Safety Packaging Under Nitrogen Store Cold
Safety Packaging Under Nitrogen Store Cold Store in Dark
Safety Packaging Under None Aminopropylsilsesqui oxane in aqueous solution Water-borne amino alkyl silsesquioxane oligomers Viscosity: 5-15 cSt Mole % functional group: 65-75 pH: 10-10.5 Additives for acrylic latex sealants Low...
Safety Packaging Under None VDT-123: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-123 Properties...
Safety Packaging Under None VDT-127: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-127 Properties...
Safety Packaging Under None VDT-131: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-131 Properties...
Safety Packaging Under None VDT-163: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-163 Properties...
Safety Packaging Under None VDT-431: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-431 Properties...
Safety Packaging Under None VDT-5035: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-5035 Properties...
Safety Packaging Under None VDT-731: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-731 Properties...
Safety Packaging Under None VDT-954: Vinylmethylsiloxane- Dimethylsiloxane Copolymer, TMS Terminated (Pendant Functional Fluid) Vinyl containing copolymers are used as crosslinkers in Pt and peroxide 2-part addition cure elastomers. VDT-954 Properties...
Safety Packaging Under None
Safety Packaging Under None Store Cold
Safety Packaging Under None Store in Dark
Safety Store Cold