15% POTASSIUM HEX-CEM | OMG Borchers GmbH | 15% POTASSIUM HEX-CEM is a potassium 2-ethylhexanoate dissolved in diethylen diglycol which combined with cobalt supports the accelerating effect in unsaturated polyesters. This results in a decrease of discoloration of UPS-Systems caused by Cobalt. It is...view more 15% POTASSIUM HEX-CEM is a potassium 2-ethylhexanoate dissolved in diethylen diglycol which combined with cobalt supports the accelerating effect in unsaturated polyesters. This results in a decrease of discoloration of UPS-Systems caused by Cobalt. It is also capable of stabilizing the rheological and the pot life behaviour of waterborne 2-components PUR systems, and it can positively affect the haze-values of these paint systems. view less | |
Borchers® Deca Cobalt 12 (xylene) | OMG Borchers GmbH | Borchers® Deca Cobalt 12 (xylene) is used as a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will be initiated as a result of repid decomposition of the organic peroxides. ...view more Borchers® Deca Cobalt 12 (xylene) is used as a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will be initiated as a result of repid decomposition of the organic peroxides. Borchers® Deca Cobalt grades are used in unsaturated polyester systems for coatings and casting resins, as well as in synthetic resins for fiber reinforced tools. It can also be used as an accelerator in unsaturated polyester resins, resulting in a shorter gel time. view less | |
Borchers® Deca Cobalt 6 HS | OMG Borchers GmbH | Borchers® Deca Cobalt 6 HS is used as a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will be initiated as a result of repid decomposition of the organic peroxides. Borch...view more Borchers® Deca Cobalt 6 HS is used as a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will be initiated as a result of repid decomposition of the organic peroxides. Borchers® Deca Cobalt grades are used in unsaturated polyester systems for coatings and casting resins, as well as in synthetic resins for fiber reinforced tools. It can also be used as an accelerator in unsaturated polyester resins, resulting in a shorter gel time. view less | |
Borchi® Kat 315 | OMG Borchers GmbH | Borchi® Kat 315 is a highly reactive tin-free catalyst based on bismuth neodecanoate used as accelerator for solventborne or solvent-free one- and two-component polyurethane systems and stoving enamels based on blocked isocyanates. Furthermore Borchi® Kat...view more Borchi® Kat 315 is a highly reactive tin-free catalyst based on bismuth neodecanoate used as accelerator for solventborne or solvent-free one- and two-component polyurethane systems and stoving enamels based on blocked isocyanates. Furthermore Borchi® Kat 315 can be used in the catalysis of PU foams as well as RTV silicone resins. This catalyst contains no additional organic complexing agents. Borchi® Kat 315 is an ecologically safe replacement for other polyurethane catalysts, especially for amines and tin-based products like DBTL. view less | |
Borchi® Kat 320 | OMG Borchers GmbH | Borchi® Kat 320 is a highly reactive tin-free catalyst based on bismuth 2-Ethylhexanoate used as accelerator for solventborne one- and two-component polyurethane systems and stoving enamels based on blocked isocyanates. Furthermore Borchi® Kat 320 can be ...view more Borchi® Kat 320 is a highly reactive tin-free catalyst based on bismuth 2-Ethylhexanoate used as accelerator for solventborne one- and two-component polyurethane systems and stoving enamels based on blocked isocyanates. Furthermore Borchi® Kat 320 can be used in the catalysis of PU foams as well as RTV silicone resins. This catalyst contains no additional organic complexing agents. Borchi® Kat 320 is an ecologically safe replacement for other polyurethane catalysts, especially for amines and tin-based products like DBTL. view less | |
Octa-Soligen® Cobalt 10 (xylene) | OMG Borchers GmbH | Octa-Soligen® Cobalt 10 (xylene) is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic peroxides. This product ...view more Octa-Soligen® Cobalt 10 (xylene) is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic peroxides. This product is based on metal salts of 2-ethylhexanic acid (octoates) or its isomers. It is used in unsaturated polyesters for coatings and casting resins, as well as in synthetic resins for fiber reinforced tools. view less | |
Octa-Soligen® Cobalt 12 (xylene) | OMG Borchers GmbH | Octa-Soligen® Cobalt 12 (xylene) contains cobalt, which is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic p...view more Octa-Soligen® Cobalt 12 (xylene) contains cobalt, which is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic peroxides. This product is based on metal salts of 2-ethylhexanic acid (octoates) or its isomers. It is used in unsaturated polyesters. view less | |
Octa-Soligen® Cobalt 6 (xylene) | OMG Borchers GmbH | Octa-Soligen® Cobalt 6 (xylene) is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic peroxides. This product i...view more Octa-Soligen® Cobalt 6 (xylene) is a fundamental accelerator used in conjunction with organic peroxides to cure unsaturated polyester systems. Radical polymerization will initiate as a result of rapid decomposition of the organic peroxides. This product is based on metal salts of 2-ethylhexanic acid (octoates) or its isomers. It is used in unsaturated polyesters. view less |