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86 products match your search
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Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for PUR-PIR systems or blend with other... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for one component foam which is compliant with... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high branched PUR systems... view more
Aromatic-aliphatic based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Can be used in pentane compatibilizer in PUR... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Can be used as visco reducer and adhesion promoter... view more
Aromatic PET based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at... view more
Aromatic PET polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high fire... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high index pentane based PIR systems... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high branched PUR systems... view more
Aromatic PET based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at... view more
Aromatic-brominated polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for systems at high fire performance... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for one component foam which is compliant... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for one component foam which is compliant with... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PET polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high fire... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for PUR systems when low polyol viscosity... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PET based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems or as... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high index pentane based PIR systems... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems or as... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index PIR systems at high... view more
Aromatic PET based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for general use in PUR and PIR systems... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for PUR systems when low polyol viscosity is... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for general use in PUR and low index in... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Can be used as co-polyol in PUR systems and also as visco... view more
Aliphatic polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for PUR and low index PIR systems as co-polyol... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for general use in PUR and PIR systems... view more
Aromatic terephthalic acid (TA) based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index... view more
Aromatic terephthalic acid (TA) based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index... view more
Aromatic terephthalic acid (TA) based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for general use in PUR and low index in... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index pentane based PIR... view more
Aromatic PA based polyester polyol. Offers maximized cost to performance ratio. Shows good compatibility with polyethers, additives and blowers. Recommended for high-medium index pentane based PIR... view more
Polyol. Pentane can be used as blower for the system. Suitable for polyurethane. Recommended for rigid faces panels. It complies with the fire classification B2 according to German standard (DIN... view more
Polyol. Pentane can be used as blower for the system. Suitable for polyurethane system. Recommended for rigid faces panels. It complies with the fire classification B3 according to German standard... view more
Polyol. Pentane can be used as blower for the system. Suitable for polyurethane. Recommended for rigid faces panels. It complies with the fire classification B3 according to German standard (DIN... view more
Polyol. Pentane can be used as blower for the system. Suitable for polyurethane. Recommended for rigid faces panels. It complies with the fire classification B3 according to German standard (DIN... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for flexible faces panels. It complies with the fire classification B3 according to German standard (DIN... view more
Polyol. Pentane can be used as blower for the system. Suitable for polyurethane. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. cPentane can be used as blower for the system. Suitable for polyurethane system. Recommended for appliances. It complies with the fire classification B3 according to German standard (DIN... view more
Polyol. cPentane can be used as blower for the system. Suitable for polyurethane. Recommended for appliances. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. cPentane can be used as blower for the system. Suitable for polyurethane. Recommended for appliances. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. Pentane can be used as blower for the system. Suitable for PIR. Recommended for rigid faces panels. It complies with the fire classification B2 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for PIR. Recommended for rigid faces panels. It complies with the fire classification B2 according to German standard (DIN 4102)... view more
Polyol. CO2(water) can be used as blower for the system. Suitable for polyurethane. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. CO2(water) can be used as blower for the system. Suitable for polyurethane. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. CO2(water) or HFC can be used as blower for the system. Suitable for polyurethane system. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. CO2(water) can be used as blower for the system. Suitable for polyurethane. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. CO2(water) can be used as blower for the system. Suitable for polyurethane. Recommended for packaging. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. CO2(water) can be used as blower for the system. Suitable for polyurethane. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for sandwich panels. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for sandwich panels. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. It is suitable for polyurethane system. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. It is suitable for polyurethane system. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane system. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for sandwich panels. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for sandwich panels. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Polyol. HFC can be used as blower for the system. Suitable for polyurethane. Recommended for sandwich panels. It complies with the fire classification B3 according to German standard (DIN 4102)... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated sorbitol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated ethylenediamine based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated ethylenediamine based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated glycerol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated glycerol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated glycerol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated glycerol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated glycerol based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability and... view more
Propoxylated trimethylolpropane based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability... view more
Propoxylated trimethylolpropane based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability... view more
Propoxylated trimethylolpropane based polyether. Can be used in the production of polyurethane rigid foam which shows very good physical-mechanical properties mainly as far as dimensional stability... view more
Esterification product based on phtalic and/or maleic anhydride together with various alcohols (isobutilic, methylic, ethylic cycloesylic, etc.). Employed in PVC and cellulose acetate flock... view more
Molecular weight varying between a few hundred and a few thousand, usually capped with alcoholic or acidic chain stoppers... view more
UBE Polycarbonate Diols
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