| AQUACER 571 | BYK | AQUACER 571 is a modified rice bran wax emulsion to improve the surface properties of care products, polishes, and aqueous coating systems. | |
| BYK-1642 | BYK | BYK-1642 is a polymer-based, VOC- and silicone-free defoamer for aqueous coatings, printing inks, adhesives, paper coatings, and construction chemicals. Optimum performance at the lowest dosage. | |
| BYK-3756 | BYK | BYK-3756 is a silicone-containing surface additive with extended food contact compliance for solvent-borne, solvent-free, and aqueous coating systems with a strong reduction in surface tension. Excellent substrate wetting prevents cratering and increases ...view more BYK-3756 is a silicone-containing surface additive with extended food contact compliance for solvent-borne, solvent-free, and aqueous coating systems with a strong reduction in surface tension. Excellent substrate wetting prevents cratering and increases surface slip. view less | |
| BYK-UV 3518 | BYK | BYK-UV 3518 is a nano-particle dispersion based on surface-treated silica for improving the scratch and abrasion resistance of solvent-free and solvent-borne radiation-curable clear coats. | |
| BYK-UV 3519 | BYK | BYK-UV 3519 is a nano-particle dispersion based on surface-treated silica for improving the scratch and abrasion resistance of solvent-free and solvent-borne radiation-curable clear coats. | |
| CERAFLOUR 1050 | BYK | CERAFLOUR 1050 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to...view more CERAFLOUR 1050 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to typical PE/PTFE wax additives. view less | |
| CERAFLOUR 1051 | BYK | CERAFLOUR 1051 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to...view more CERAFLOUR 1051 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to typical PE/PTFE wax additives. view less | |
| CERAFLOUR 1052 | BYK | CERAFLOUR 1052 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to...view more CERAFLOUR 1052 is a PTFE-free micronized polyethylene wax additive for improving scratch and abrasion resistance and increasing the surface slip of aqueous, solvent-borne, solvent-free, and UV coating systems. Its function and efficiency are comparable to typical PE/PTFE wax additives. view less | |
| Deuteron OG 8803 | Deuteron | Deuteron OG 8803 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal...view more Deuteron OG 8803 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal stability of over 200°C. When used as an additive in radically curing coatings systems, Deuteron OG 880x improves the static and dynamic friction of the coatings and provides improved mechanical resistance. Compared to wax-based additives, Deuteron OG 880x does not adversely affect the recoatability recoated. The very fine solid particles (PMU) allows the products to be used in coating systems that are applied as extremely thin films. The gloss reduction is dependant on the type of employed binder, the applied film thickness and the selected dosage. Therefore the reduction in gloss that can be achieved with Deuteron OG 880x can be customised to realise a variety of surface protection and matting objectives. Deuteron OG 880x is intended for use in radiation curing coatings and printing inks. They are particularly recommended for use in systems which require a thin film thickness, e.g. printing inks and overprinting lacquers. The use of Deuteron OG 880x can substantially improve coatings (ranging from silky sheen to matt) which contain silicic acid as a matting agent and possess inadequate surface resistance. view less | Request Sample |
| Deuteron OG 8805 | Deuteron | Deuteron OG 8805 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal...view more Deuteron OG 8805 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal stability of over 200°C. When used as an additive in radically curing coatings systems, Deuteron OG 880x improves the static and dynamic friction of the coatings and provides improved mechanical resistance. Compared to wax-based additives, Deuteron OG 880x does not adversely affect the recoatability recoated. The very fine solid particles (PMU) allows the products to be used in coating systems that are applied as extremely thin films. The gloss reduction is dependant on the type of employed binder, the applied film thickness and the selected dosage. Therefore the reduction in gloss that can be achieved with Deuteron OG 880x can be customised to realise a variety of surface protection and matting objectives. Deuteron OG 880x is intended for use in radiation curing coatings and printing inks. They are particularly recommended for use in systems which require a thin film thickness, e.g. printing inks and overprinting lacquers. The use of Deuteron OG 880x can substantially improve coatings (ranging from silky sheen to matt) which contain silicic acid as a matting agent and possess inadequate surface resistance. view less | Request Sample |
| Deuteron OG 8807 | Deuteron | Deuteron OG 8807 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal...view more Deuteron OG 8807 is based on polymethyl urea resin (PMU) as the active ingredient. Features of the duroplastic active ingredient are its high hardness and abrasion resistance. It is resistant to most standard solvents used in coatings and has good thermal stability of over 200°C. When used as an additive in radically curing coatings systems, Deuteron OG 880x improves the static and dynamic friction of the coatings and provides improved mechanical resistance. Compared to wax-based additives, Deuteron OG 880x does not adversely affect the recoatability recoated. The very fine solid particles (PMU) allows the products to be used in coating systems that are applied as extremely thin films. The gloss reduction is dependant on the type of employed binder, the applied film thickness and the selected dosage. Therefore the reduction in gloss that can be achieved with Deuteron OG 880x can be customised to realise a variety of surface protection and matting objectives. Deuteron OG 880x is intended for use in radiation curing coatings and printing inks. They are particularly recommended for use in systems which require a thin film thickness, e.g. printing inks and overprinting lacquers. The use of Deuteron OG 880x can substantially improve coatings (ranging from silky sheen to matt) which contain silicic acid as a matting agent and possess inadequate surface resistance. view less | Request Sample |
| Deuteron UV 1240 | Deuteron | Deuteron UV 1240 may be used as a UV hardener for all binding agents that can be cationically polymerized, particularly epoxides. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 1240. The photoinitiator Deutero...view more Deuteron UV 1240 may be used as a UV hardener for all binding agents that can be cationically polymerized, particularly epoxides. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 1240. The photoinitiator Deuteron UV 1240 hardens binder systems that polymerize cationically under UV exposure. Deuteron UV 1240 is soluble in these binder systems including the usual solvents and reactive diluents. view less | Request Sample |
| Deuteron UV 1242 | Deuteron | The photoinitiator Deuteron UV 1242 hardens binder systems that polymerize cationically under UV exposure. Deuteron UV 1242 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 1242 may be used as a UV hard...view more The photoinitiator Deuteron UV 1242 hardens binder systems that polymerize cationically under UV exposure. Deuteron UV 1242 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 1242 may be used as a UV hardener for all binding agents that can be cationically polymerized, particularly silicones and epoxides. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 1242. view less | Request Sample |
| Deuteron UV 1250 | Deuteron | The photoinitiator Deuteron UV 1250 hardens binder systems that polymerize cationically under UV exposure. Deuteron UV 1250 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 1250 may be used as a UV hard...view more The photoinitiator Deuteron UV 1250 hardens binder systems that polymerize cationically under UV exposure. Deuteron UV 1250 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 1250 may be used as a UV hardener for all binding agents that can be cationically polymerized and release coatings. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 1250. view less | Request Sample |
| Deuteron UV 2257 | Deuteron | Deuteron UV 2257 may be used as a UV initiator for all binders that can be cationically polymerized, particularly epoxides used in the printing ink sector. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 2257. ...view more Deuteron UV 2257 may be used as a UV initiator for all binders that can be cationically polymerized, particularly epoxides used in the printing ink sector. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 2257. Deuteron UV 2257 enables the cationic polymerization of special binder systems through a starting reaction. Deuteron UV 2257 is soluble in these binder systems including common solvents and reactive diluents. view less | Request Sample |
| Deuteron UV 3100 | Deuteron | The photoinitiator Deuteron UV 3100 hardens binder systems that polymerise cationically under UV exposure. Deuteron UV 3100 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 3100 may be used as a UV hard...view more The photoinitiator Deuteron UV 3100 hardens binder systems that polymerise cationically under UV exposure. Deuteron UV 3100 is soluble in these binder systems including the usual solvents and reactive diluents. Deuteron UV 3100 may be used as a UV hardener for all binding agents that can be cationically polymerised, in particular epoxides. Alkaline additives should be avoided because they impair the effectiveness of Deuteron UV 3100. view less | Request Sample |
