Noverite™ 301 Polymer | Lubrizol |
Noverite™ 301 polymer is an aqueous, cationic, hydrophilic copolymer that provides excellent affinity to fiber and is suitable for both standard and high efficiency laundry products. It was developed to improve the performance of a wide range of fabric ca...view more
Noverite™ 301 polymer is an aqueous, cationic, hydrophilic copolymer that provides excellent affinity to fiber and is suitable for both standard and high efficiency laundry products. It was developed to improve the performance of a wide range of fabric care products such as liquid and powder laundry detergents and fabric softeners. In addition, Noverite™ 301 polymer has the ability to develop hydrophilic surfaces when applied to many hard surfaces. The resulting hydrophilic surfaces can result in water sheeting, lime scale prevention, and easy removal of soap scum on treated surfaces. view less
Compliance Highlights Unavailable
|
Request Sample |
Noverite™ K-7058D Polymer | Lubrizol |
Noverite™ K-7058D powdered polymer is a water-soluble sodium salt of a low molecular weight, water-soluble acrylic acid polymer that is supplied as a white, free-flowing powder, containing 11 wt% moisture. It has a pH of 6.0 - 9.0 and a molecular weight o...view more
Noverite™ K-7058D powdered polymer is a water-soluble sodium salt of a low molecular weight, water-soluble acrylic acid polymer that is supplied as a white, free-flowing powder, containing 11 wt% moisture. It has a pH of 6.0 - 9.0 and a molecular weight of 7,300. Noverite™ K-7058D powdered polymer is recommended for use in automatic dishwashing systems and liquid laundry detergents. view less
Compliance Highlights Unavailable
|
Request Sample |
Noverite™ K-739 Polymer | Lubrizol |
Noverite™ K-739 polymer is a water-soluble sodium salt of a low molecular weight, water-soluble acrylic acid polymer (Noverite™ K-732 polymer) that is supplied as a white, free-flowing powder, containing 11 wt% moisture. It has a pH of 6.0 - 9.0 and a mol...view more
Noverite™ K-739 polymer is a water-soluble sodium salt of a low molecular weight, water-soluble acrylic acid polymer (Noverite™ K-732 polymer) that is supplied as a white, free-flowing powder, containing 11 wt% moisture. It has a pH of 6.0 - 9.0 and a molecular weight of 6,000. Noverite™ K-739 polymer is recommended for use in automatic dishwashing systems and liquid laundry detergents. view less
Compliance Highlights Unavailable
|
Request Sample |
Noverite™ K-752 Polymer | Lubrizol |
Noverite™ K-752 polymer is a partially neutralized, low molecular weight, water-soluble acrylic acid polymer supplied as a clear, amber colored, 63 wt% total solids solution in water. It has a pH of 2.2 - 3.0 and a molecular weight of 2,000. Noverite™ K-752 polymer is recommended for use in powdered laundry...view more
Noverite™ K-752 polymer is a partially neutralized, low molecular weight, water-soluble acrylic acid polymer supplied as a clear, amber colored, 63 wt% total solids solution in water. It has a pH of 2.2 - 3.0 and a molecular weight of 2,000. Noverite™ K-752 polymer is recommended for use in powdered laundry detergents. view less
Compliance Highlights Unavailable
|
Request Sample |
Carbopol® ETD 2623 Polymer | Lubrizol |
Carbopol® ETD 2623 polymer is a hydrophobically-modified, easy-to-disperse, moderately crosslinked polyacrylic acid polymer powder polymerized in a toxicologically-preferred cosolvent system. It was designed to impart thickening, stabilizing, and suspensi...view more
Carbopol® ETD 2623 polymer is a hydrophobically-modified, easy-to-disperse, moderately crosslinked polyacrylic acid polymer powder polymerized in a toxicologically-preferred cosolvent system. It was designed to impart thickening, stabilizing, and suspension properties to a wide range of household applications. Carbopol® ETD 2623 polymer was designed for use as a versatile rheology modifier in surfactant-based formulations where longer flow, enhanced ease of use, and electrolyte tolerance are key requirements. view less
Compliance Highlights Unavailable
|
Request Sample |