Tyzor® organic titanates and zirconates as well as Unilink® and Clearlink® chain extenders are used in a variety of different applications, such as catalysts in chemical synthesis and production processes for esterification, transesterification, (poly)condensation, (poly)addition, and olefin polymerization reactions, as catalysts, curing agents, and adhesion promoters in industrial and glass coatings, printing inks, silicone sealants, glues, as well as oil field fracturing, as chain extenders in polyurethane and polyurea elastomers and coatings, and as inorganic binder in ceramics and nanotechnology applications.
Products | Composition | Application |
---|---|---|
Tyzor® 9000 | Reactive organic alkoxy titanate | Tyzor® 9000 acts as a Lewis acid catalyst in esterification, transesterification, (poly)condensation, and (poly)addition reactions to produce (meth-)acrylic esters, polyesters, plasticizers, polyurethanes, epoxy system components and related compounds. |
Tyzor® AA-65 Tyzor® AA-75 Tyzor® AA-105 | Titanium chelate with acetylacetonate | Tyzor® AA series provide excellent crosslinking and adhesion promotion for solvent-based printing inks such as those based on nitrocellulose. In coating applications, glass and metal substrates, as well as fillers and pigments can be treated with Tyzor® hardness, promote adhesion, enhance resistance to scratches and corrosion, add coloring effects, improve heat and light reflection. In addition, Tyzor® AA series can be applied as catalysts for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® BTP | n-Butyl polytitanate | Tyzor® BTP crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. It releases a lower amount of volatile organic compounds (VOC) compared with many other Tyzor® products. |
Tyzor® ET | Reactive tetra-ethyl titanate | Tyzor® ET promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, and acts as Lewis acid catalyst for (poly)condensation and (poly)addition reactions. It offers the highest TiO2 content in the Tyzor® product line. |
Tyzor® IAM | Titanium-based phosphate complex | Tyzor® IAM improves adhesion promotion and crosslinking properties of solvent-borne printing inks resulting in improved water, solvent, and heat resistance and provides high effectiveness even at low dosages. |
Tyzor®IBAY | Titanium ethyl acetoacetate complex | Tyzor® IBAY promotes adhesion and crosslinks RTV-1 silicone sealants, as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® LA | Water-based, hydrolytically stable chelated titanium solution | Tyzor® LA catalyzes polymerization reactions and crosslinks binders in OH-functional water-based paints, and coatings, as well as dispersions of guar and its derivatives used in oil fracturing applications. |
Tyzor® NBZ | Highly reactive organic alkoxy zirconate | Tyzor® NBZ crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions as well as in the synthesis of polyolefins, such as polyethylene, polypropylene, and others. |
Tyzor® NPZ | Highly reactive organic alkoxy zirconate | Tyzor® NPZ crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions as well as in the synthesis of polyolefins, such as polyethylene, polypropylene, and others. |
Tyzor® OGT | Highly reactive organic alkoxy titanate | Tyzor® OGT crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as Lewis acid catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® PITA | Titanium ethyl acetoacetate complex | Tyzor® PITA catalyzes and crosslinks silicone sealants and adhesives as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® PITA-SM | Mixture of titanium ethyl acetoacetate complex and methyl-trimethoxy silane | Tyzor® PITA-SM catalyzes and crosslinks silicone sealants and adhesives as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® TE | Triethanolamine titanium complex | Tyzor® TE crosslinks carbohydrate-coated latex particles for highly viscous thixotropic paints as well as dispersions of guar and its derivatives to form high-viscosity aqueous gels used in oil fracturing applications, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® TnBT | Highly reactive tetra-n-butyl titanate | Tyzor® TnBT promotes adhesion in paints and coatings, crosslinks OH-functional polymers and binders, as well as, acts as Lewis acid catalyst for (poly)condensation and (poly)addition reactions and Ziegler-Natta catalyst for polymerizations. |
Tyzor® TOT | Reactive tetra-2-ethylhexyl titanate | Tyzor® TOT promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, as well as catalyzes (poly)condensation and (poly)addition reactions. |
Tyzor® TPT | Highly reactive tetra-isopropyl titanate | Tyzor® TPT promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, as well as promotes Ziegler-Natta catalysis for olefin polymerization and catalyzes (poly)condensation and (poly)addition reactions. |
Tyzor® TPT-20B | Mixture of tetra-isopropyl titanate and tetra-n-butyl titanate | Tyzor® TPT-20B promotes adhesion in paints and coatings, crosslinks OH-functional polymers and binders, promotes Ziegler-Natta catalysis for olefin polymerization and catalyzes (poly)condensation and (poly)addition reactions. |
Unilink® 1030 | Reactive proprietary liquid zirconium chelate dissolved in a reactive diol | Unilink® 1030 is designed for use in polyurethane elastomers. It provides delayed open times in polyester polyol elastomers, and because the diol solvent reacts into the polyurethane it leaves no residue. Unilink® 1030 is selective towards the gelling reaction, generating very low water reactivity, and low color makes it particularly suitable for color-critical formulations. |
Unilink® 2130 | Catalyst blend containing proprietary titanium chelates | Unilink® 2130 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. Unilink® 2130 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 2200 | Proprietary titanium chelate | Unilink® 2200 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. Unilink® 2130 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 2500 | Proprietary titanium chelate | Unilink® 2500 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. It is designed for use with castor oil, polybutadiene polyols or polyether polyol systems requiring short gel times. Unilink® 2500 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 4200 | Multifunctional aromatic diamine chain extender | UNILINK® 4200 is a multifunctional chain extender for polyurethane and polyurea systems such as flexible and rigid foams, coatings, adhesives, and elastomers. Thanks to relatively low reactivity, UNILINK® 4200 can be used in TDI or MDI formulations, and cross-linking can be controlled by adding higher functioning polyols. |
Clearlink® 1000 | Aliphatic diamine chain extender | Clearlink® 1000 is an aliphatic diamine chain extender with a reactivity substantially lower than other commercially available aliphatic diamines. Clearlink® 1000 allows the processing of aliphatic isocyanates to produce tough, light-stable polyurethane and polyurea coatings by conventional spray techniques. |
adbesion-promoters.pdf
LUVOMAXX® silanes are functional organosilanes that are broadly applicable as adhesion promotors to a broad range of different polymers and resin technologies in order to improve wet and dry adhesion on multiple (inorganic) substrates, in particularly those, that offer OH-functional surfaces. LUVOMAXX® silanes do not only interact at the interface polymer/substrate but are also used as coupling agents to improve the reinforcement of fillers within polymeric matrices by the formation of covalent linkages between the polymer system and OH-functional fillers.
Additionally, LUVOMAXX® silanes are typically applied as moisture-catalyzed crosslinkers in (reactive) coating, adhesive, and sealant systems, particularly those based on polyurethanes, silicones, and MS polymers in order to improve mechanical and chemical properties such as increased tensile strength, advanced elastic modulus, improved scratch, abrasion, and notch impact resistance, as well as, better resistance to organic solvents, heat, or UV rays. Due to its selective reactivity, LUVOMAXX silanes (particularly amino-functional ones) can be also used to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers.
Furthermore, LUVOMAXX® silanes are used as hydrophobing agents in order to achieve mass hydrophobing and water-proofing, water repellency, as well as, improved moisture and corrosion resistance in building and construction materials or as water-scavenger and drying agent in moisture-sensitive and moisture-cured formulations such as hybrid systems based on silan-terminated polymers.
Products | Description | Application |
---|---|---|
LUVOMAXX® AMINOSIL | 3-Aminopropyltriethoxysilane | LUVOMAXX® AMINOSIL is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
LUVOMAXX® AMINOSIL M | 3-Aminopropyltrimethoxysilane | LUVOMAXX® AMINOSIL M is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL M is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
LUVOMAXX® AMINOSIL EDA | [3-(2-Aminoethyl)amino-propyl]trimethoxysilane | LUVOMAXX® AMINOSIL EDA is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL EDA is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
LUVOMAXX® EPOXYSIL | 3-Glycidyloxypropyltrimethoxysilane | LUVOMAXX® EPOXYSIL is an epoxy-functional silane used as adhesion promoter in polyurethane, epoxy, polysulfide, silicone, and acrylic caulks, coatings, adhesives, and sealants in order to improve wet and dry adhesion to multiple (inorganic, particularly glass) substrates. |
LUVOMAXX® METHASIL | 3-Methacryloxypropyltrimethoxysilane | LUVOMAXX® METHASIL is used as polymer grafting unit in the preparation of polymers in association with other monomers like vinyl acetate, acrylic acid and methyl acrylic acid used in coatings, adhesives and sealants in order to provide excellent adhesion and durability. Furthermore, LUVOMAXX® METHASIL is applied as adhesion promoter and coupling agent to improve the reinforcement of fillers within the polymeric matrices. |
LUVOMAXX® OCTASIL | Triethoxy-n-octylsilane | LUVOMAXX® OCTASIL is used as hydrophobing agent and surface modifier for a variety of inorganic surfaces such as glass, glass fibres, mineral wool, silica, clay, mica, ATH and other hydroxides. Furthermore, LUVOMAXX® OCTASIL is applied as adhesion promoter and coupling agent that can physically interact via its non-polar alkyl chains with corresponding polymers in order to improve the reinforcement of fillers within the polymeric matrices. |
Further products can be made available on request.
luvomaxx®-silanes.pdf
The TAYCA Corporation has been working in the research and development of specialized phosphate materials for many years and has succeeded in the production and commercialization of K-WHITE®. The K-WHITE® range of products are all based on the unique properties and chemistry of Aluminum Triphosphate (AlH2P3O10· 2 H2O) and technology has been pioneered by the TAYCA Corporation throughout the world. A comprehensive range of grades is available to meet the demands of the particular systems into which K-WHITE® products are incorporated.
Products | Description | Application |
---|---|---|
K-WHITE® 82 | K-WHITE® 82 is a standard grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc and silica with particular focus on solvent-borne applications. | K-WHITE® 82 provides excellent anti-corrosive properties for solvent-borne coatings based on long, medium, and short oil alkyds as well as epoxy and polyester resins or chlorinated rubber particularly when applied over steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® 84 | K-WHITE® 84 is a standard grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc and silica for application in both solvent-borne as well as water-borne coatings. | K-WHITE® 84 provides excellent anti-corrosive properties for solvent-borne coatings based on long, and medium oil alkyds, epoxy and polyester resins as well as water-borne coatings based on water-soluble alkyd resins, epoxy resins and epoxy ester dispersions, as well as vinyl acrylic copolymers particularly when applied over steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® 84S | K-WHITE® 84S is a standard grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc and silica with particular focus on water-borne applications. | K-WHITE® 84S provides excellent anti-corrosive properties for water-borne coatings based on water-soluble alkyd resins, water-borne epoxy resins, epoxy ester dispersions, acrylic emulsions, and vinyl acrylic copolymers particularly when applied over steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® 105 | K-WHITE® 105 is a micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc for application in solvent-borne, water-borne, as well as powder coatings. | K-WHITE® 105 provides excellent anti-corrosive properties for solvent-borne coatings based on long, medium, and short oil alkyds, epoxy and polyester resins or chlorinated rubber as well as water-borne coatings based on water-soluble alkyd resins, epoxy resins and epoxy ester dispersions, as well as vinyl acrylic copolymers particularly when applied over steel. This anti-corrosive pigment is also highly recommended for powder coating applications based on epoxy or polyester resins. |
K-WHITE® 105S | K-WHITE® 105S is a micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc for application in solvent-borne, water-borne, as well as powder coatings. | K-WHITE® 105S provides excellent anti-corrosive properties for solvent-borne coatings based on long, medium, and short oil alkyds, epoxy and polyester resins or chlorinated rubber as well as water-borne coatings based on water-soluble alkyd resins, epoxy resins and epoxy ester dispersions, as well as vinyl acrylic copolymers particularly when applied over steel. This anti-corrosive pigment is also highly recommended for powder coating applications based on epoxy or polyester resins. |
K-WHITE® G105 | K-WHITE® G105 is a zinc-free, micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by magnesium with particular focus on solvent-borne applications as well as powder coatings. | K-WHITE® G105 provides excellent anti-corrosive properties for solvent-borne coatings based on short oil alkyds, epoxy and polyester as well as powder coatings based on epoxy and polyester resins particularly when applied over zinc galvanized steel, aluminum or magnesium alloys. |
K-WHITE® 108 | K-WHITE® 108 is a micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc with particular focus on solvent-borne applications as well as powder coatings. | K-WHITE® 108 provides excellent anti-corrosive properties for solvent-borne coatings based on long, medium, and short oil alkyds, epoxy and polyester resins as well as powder coating applications based on epoxy or polyester resins particularly when applied over steel or aluminum. This anti-corrosive pigment is also highly recommended for water-borne coatings based water-borne epoxy resins. |
K-WHITE® G110 | K-WHITE® G110 is a zinc-free, micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by magnesium with particular focus on solvent-borne applications as well as powder coatings. | K-WHITE® G110 provides excellent anti-corrosive properties for solvent-borne coatings based on short oil alkyds, epoxy and polyester as well as powder coatings based on epoxy and polyester resins particularly when applied over zinc galvanized steel, aluminum or magnesium alloys. |
K-WHITE® 140W | K-WHITE® 140W is a micronized grade anti-corrosive pigment based on aluminum triphosphate and modified by zinc with particular focus on water-borne applications. | K-WHITE® 140W provides excellent anti-corrosive properties for water-borne coatings based on water-soluble alkyd resins, water-borne epoxy resins, and acrylic emulsions particularly when applied over conventional or zinc galvanized steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® ZF150W | K-WHITE® ZF150W is a zinc-free anti-corrosive pigment based on aluminum triphosphate and modified by calcium and magnesium for application in solvent-borne, water-borne, as well as powder coatings. | K-WHITE® ZF150W provides excellent anti-corrosive properties for solvent-borne coatings based on long, medium, and short oil alkyds, epoxy and polyester resins or chlorinated rubber as well as water-borne coatings based on water-soluble alkyd resins and acrylic emulsions when applied over steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® 450H | K-WHITE® 450H is a zinc-free standard grade anti-corrosive pigment based on aluminum triphosphate and modified by magnesium with particular focus on water-borne applications. | K-WHITE® 450H provides excellent anti-corrosive properties for water-borne coatings based on acrylic emulsions and vinyl acrylic copolymers particularly when applied over zinc galvanized steel. This anti-corrosive pigment is also suitable for powder coating applications based on epoxy or polyester resins. |
K-WHITE® Ca650 | K-WHITE® Ca650 is a zinc-free standard grade anti-corrosive pigment based on aluminum triphosphate and modified by calcium with particular focus on solvent-borne applications and powder coatings. | K-WHITE® Ca650 provides excellent anti-corrosive properties in conjunction with epoxy and polyester resins for both solvent-borne as well as powder coatings particularly when applied over zinc galvanized steel. This anti-corrosive pigment is also suitable for water-borne coating applications based on a broad variety of commonly used resin technologies. |
K-WHITE® TC720 | K-WHITE® TC720 is a zinc-free standard grade anti-corrosive pigment based on a silica and magnesium compound for application in solvent-borne, water-borne, as well as powder coatings. | K-WHITE® TC720 provides excellent anti-corrosive properties in conjunction with epoxy and polyester resins for both solvent-borne and powder coatings particularly as well as water-borne coatings based on epoxy resins, epoxy ester dispersions, and acrylic emulsions when applied over zinc, galvanized steel or magnesium alloys. |
K-WHITE® G730 | K-WHITE® G730 is a zinc-free standard grade anti-corrosive pigment based on a silica and magnesium compound for application in solvent-borne coatings. | K-WHITE® G730 provides excellent anti-corrosive properties in conjunction with resins typically used for solvent-borne coil coating primer when applied over non-ferrous substrates, particularly zinc galvanized steel. |
K-WHITE® G750 | K-WHITE® G750 is a zinc-free standard grade anti-corrosive pigment based on a silica and magnesium compound for application in solvent-borne coatings. | K-WHITE® G750 provides excellent anti-corrosive properties in conjunction with resins typically used for solvent-borne coil coating primer when applied over non-ferrous substrates, particularly zinc galvanized steel. |
Tyzor® organic titanates and zirconates as well as Unilink® and Clearlink® chain extenders are used in a variety of different applications, such as catalysts in chemical synthesis and production processes for esterification, transesterification, (poly)condensation, (poly)addition, and olefin polymerization reactions, as catalysts, curing agents, and adhesion promoters in industrial and glass coatings, printing inks, silicone sealants, glues, as well as oil field fracturing, as chain extenders in polyurethane and polyurea elastomers and coatings, and as inorganic binder in ceramics and nanotechnology applications.
Products | Composition | Application |
---|---|---|
Tyzor® 9000 | Reactive organic alkoxy titanate | Tyzor® 9000 acts as a Lewis acid catalyst in esterification, transesterification, (poly)condensation, and (poly)addition reactions to produce (meth-)acrylic esters, polyesters, plasticizers, polyurethanes, epoxy system components and related compounds. |
Tyzor® AA-65 Tyzor® AA-75 Tyzor® AA-105 | Titanium chelate with acetylacetonate | Tyzor® AA series provide excellent crosslinking and adhesion promotion for solvent-based printing inks such as those based on nitrocellulose. In coating applications, glass and metal substrates, as well as fillers and pigments can be treated with Tyzor® hardness, promote adhesion, enhance resistance to scratches and corrosion, add coloring effects, improve heat and light reflection. In addition, Tyzor® AA series can be applied as catalysts for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® BTP | n-Butyl polytitanate | Tyzor® BTP crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. It releases a lower amount of volatile organic compounds (VOC) compared with many other Tyzor® products. |
Tyzor® ET | Reactive tetra-ethyl titanate | Tyzor® ET promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, and acts as Lewis acid catalyst for (poly)condensation and (poly)addition reactions. It offers the highest TiO2 content in the Tyzor® product line. |
Tyzor® IAM | Titanium-based phosphate complex | Tyzor® IAM improves adhesion promotion and crosslinking properties of solvent-borne printing inks resulting in improved water, solvent, and heat resistance and provides high effectiveness even at low dosages. |
Tyzor®IBAY | Titanium ethyl acetoacetate complex | Tyzor® IBAY promotes adhesion and crosslinks RTV-1 silicone sealants, as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® LA | Water-based, hydrolytically stable chelated titanium solution | Tyzor® LA catalyzes polymerization reactions and crosslinks binders in OH-functional water-based paints, and coatings, as well as dispersions of guar and its derivatives used in oil fracturing applications. |
Tyzor® NBZ | Highly reactive organic alkoxy zirconate | Tyzor® NBZ crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions as well as in the synthesis of polyolefins, such as polyethylene, polypropylene, and others. |
Tyzor® NPZ | Highly reactive organic alkoxy zirconate | Tyzor® NPZ crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions as well as in the synthesis of polyolefins, such as polyethylene, polypropylene, and others. |
Tyzor® OGT | Highly reactive organic alkoxy titanate | Tyzor® OGT crosslinks and promotes adhesion for OH- and COOH-functional polymers and binders, and acts as Lewis acid catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® PITA | Titanium ethyl acetoacetate complex | Tyzor® PITA catalyzes and crosslinks silicone sealants and adhesives as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® PITA-SM | Mixture of titanium ethyl acetoacetate complex and methyl-trimethoxy silane | Tyzor® PITA-SM catalyzes and crosslinks silicone sealants and adhesives as well as silanol end-capped polymers, functional polymers, and binders used in paint and coating applications. |
Tyzor® TE | Triethanolamine titanium complex | Tyzor® TE crosslinks carbohydrate-coated latex particles for highly viscous thixotropic paints as well as dispersions of guar and its derivatives to form high-viscosity aqueous gels used in oil fracturing applications, and acts as catalyst for esterification, transesterification, (poly)condensation and (poly)addition reactions. |
Tyzor® TnBT | Highly reactive tetra-n-butyl titanate | Tyzor® TnBT promotes adhesion in paints and coatings, crosslinks OH-functional polymers and binders, as well as, acts as Lewis acid catalyst for (poly)condensation and (poly)addition reactions and Ziegler-Natta catalyst for polymerizations. |
Tyzor® TOT | Reactive tetra-2-ethylhexyl titanate | Tyzor® TOT promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, as well as catalyzes (poly)condensation and (poly)addition reactions. |
Tyzor® TPT | Highly reactive tetra-isopropyl titanate | Tyzor® TPT promotes adhesion in paints and coatings, crosslinks OH- and COOH-functional polymers and binders, as well as promotes Ziegler-Natta catalysis for olefin polymerization and catalyzes (poly)condensation and (poly)addition reactions. |
Tyzor® TPT-20B | Mixture of tetra-isopropyl titanate and tetra-n-butyl titanate | Tyzor® TPT-20B promotes adhesion in paints and coatings, crosslinks OH-functional polymers and binders, promotes Ziegler-Natta catalysis for olefin polymerization and catalyzes (poly)condensation and (poly)addition reactions. |
Unilink® 1030 | Reactive proprietary liquid zirconium chelate dissolved in a reactive diol | Unilink® 1030 is designed for use in polyurethane elastomers. It provides delayed open times in polyester polyol elastomers, and because the diol solvent reacts into the polyurethane it leaves no residue. Unilink® 1030 is selective towards the gelling reaction, generating very low water reactivity, and low color makes it particularly suitable for color-critical formulations. |
Unilink® 2130 | Catalyst blend containing proprietary titanium chelates | Unilink® 2130 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. Unilink® 2130 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 2200 | Proprietary titanium chelate | Unilink® 2200 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. Unilink® 2130 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 2500 | Proprietary titanium chelate | Unilink® 2500 is a polyurethane gelling catalyst designed for filled and unfilled MDI-based elastomers and coatings. It is designed for use with castor oil, polybutadiene polyols or polyether polyol systems requiring short gel times. Unilink® 2500 exhibits excellent gel-time stability when blended with the polyol side of the formulation. It is suitable only for formulations containing low levels of secondary alcohols and should not be used with non-ethyleneoxide-capped polypropyleneglycol polyols and similar formulations. |
Unilink® 4200 | Multifunctional aromatic diamine chain extender | UNILINK® 4200 is a multifunctional chain extender for polyurethane and polyurea systems such as flexible and rigid foams, coatings, adhesives, and elastomers. Thanks to relatively low reactivity, UNILINK® 4200 can be used in TDI or MDI formulations, and cross-linking can be controlled by adding higher functioning polyols. |
Clearlink® 1000 | Aliphatic diamine chain extender | Clearlink® 1000 is an aliphatic diamine chain extender with a reactivity substantially lower than other commercially available aliphatic diamines. Clearlink® 1000 allows the processing of aliphatic isocyanates to produce tough, light-stable polyurethane and polyurea coatings by conventional spray techniques. |
adbesion-promoters.pdf
LUVOMAXX® silanes are functional organosilanes that are broadly applicable as adhesion promotors to a broad range of different polymers and resin technologies in order to improve wet and dry adhesion on multiple (inorganic) substrates, in particularly those, that offer OH-functional surfaces. LUVOMAXX® silanes do not only interact at the interface polymer/substrate but are also used as coupling agents to improve the reinforcement of fillers within polymeric matrices by the formation of covalent linkages between the polymer system and OH-functional fillers.
Additionally, LUVOMAXX® silanes are typically applied as moisture-catalyzed crosslinkers in (reactive) coating, adhesive, and sealant systems, particularly those based on polyurethanes, silicones, and MS polymers in order to improve mechanical and chemical properties such as increased tensile strength, advanced elastic modulus, improved scratch, abrasion, and notch impact resistance, as well as, better resistance to organic solvents, heat, or UV rays. Due to its selective reactivity, LUVOMAXX silanes (particularly amino-functional ones) can be also used to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers.
Furthermore, LUVOMAXX® silanes are used as hydrophobing agents in order to achieve mass hydrophobing and water-proofing, water repellency, as well as, improved moisture and corrosion resistance in building and construction materials or as water-scavenger and drying agent in moisture-sensitive and moisture-cured formulations such as hybrid systems based on silan-terminated polymers.
Products | Description | Application |
---|---|---|
LUVOMAXX® ALKYLSILAN TEO | Tetraethoxysilane | LUVOMAXX® ALKYLSILAN TEO can be used as the main precursor material for the synthesis of zeolites and silicon dioxide typically used in semiconductor industry. Further, it is widely used as moisture-catalyzed crosslinker in polyurethanes, silicones, and MS polymers, as well as, in aerogel preparations. |
LUVOMAXX® AMINOSIL | 3-Aminopropyltriethoxysilane | LUVOMAXX® AMINOSIL is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
LUVOMAXX® AMINOSIL M | 3-Aminopropyltrimethoxysilane | LUVOMAXX® AMINOSIL M is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL M is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
LUVOMAXX® AMINOSIL EDA | [3-(2-Aminoethyl)amino-propyl]trimethoxysilane | LUVOMAXX® AMINOSIL EDA is an amino-functional silane used as adhesion promoter in coatings, casting resins, adhesives, sealants, and elastomers based on polysulfides, urethanes, RTV silicones, epoxies, nitriles, phenolics, and polybutylene terephthalates amongst others in order to improve wet and dry adhesion to multiple (inorganic) substrates and the reinforcement of particularly OH-functional fillers within the polymeric matrixes. Further, LUVOMAXX® AMINOSIL EDA is used as a moisture-catalyzed crosslinker to advance the mechanical and chemical properties of polymer systems or to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers. |
Further products can be made available on request.
luvomaxx®-silanes.pdf
Products | Description | Application |
---|---|---|
NACORR 1151 | Barium salt of dinonylnaphthalene sulphonic acid (DNNSA), (liquid) | Primarily for solvent-based systems, good binder compatibility |
NACORR 1352 | Calcium salt of DNNSA (liquid) | Especially suitable for water-based formulations |
NACORR 1551 NACORR 1552 | Zinc salt of DNNSA (liquid) | Especially for solvent-based systems, catalysed amino systems |
NACORR 1651 NACORR 1652 | Magnesium salt of DNNSA (liquid) | Good compatibility with dispersions |
NACORR 1754 | Ammonium salt of DNNSA (liquid) | Best compatibility with water-based systems without cosolvent |
NACORR 4426 | Sodium salt of DNNSA, combined with polymer (liquid) | Waterborne resins based on emulsions |
NACORR 4451 | Sodium salt of DNNSA, combined with DEEA and zinc polymer (liquid) | Corrosion protection post-additive |
NACORR XR 6401 | Zinc salt of DNNSA (powder form) | Powder systems |
NACORR XR 6402 | Calcium salt of DNNSA (powder form) | Powder systems |
NACORR XR 7402 | Ammonium salt of DNNSA (liquid) | Water-based single-component systems |
LUVOMAXX® silanes are functional organosilanes that are broadly applicable as adhesion promotors to a broad range of different polymers and resin technologies in order to improve wet and dry adhesion on multiple (inorganic) substrates, in particularly those, that offer OH-functional surfaces. LUVOMAXX® silanes do not only interact at the interface polymer/substrate but are also used as coupling agents to improve the reinforcement of fillers within polymeric matrices by the formation of covalent linkages between the polymer system and OH-functional fillers.
Additionally, LUVOMAXX® silanes are typically applied as moisture-catalyzed crosslinkers in (reactive) coating, adhesive, and sealant systems, particularly those based on polyurethanes, silicones, and MS polymers in order to improve mechanical and chemical properties such as increased tensile strength, advanced elastic modulus, improved scratch, abrasion, and notch impact resistance, as well as, better resistance to organic solvents, heat, or UV rays. Due to its selective reactivity, LUVOMAXX silanes (particularly amino-functional ones) can be also used to endcap amino-reactive polymers, e.g. isocyanate pre-polymers or epoxy-based polymers.
Furthermore, LUVOMAXX® silanes are used as hydrophobing agents in order to achieve mass hydrophobing and water-proofing, water repellency, as well as, improved moisture and corrosion resistance in building and construction materials or as water-scavenger and drying agent in moisture-sensitive and moisture-cured formulations such as hybrid systems based on silan-terminated polymers.
Products | Description | Application |
---|---|---|
LUVOMAXX® OCTASIL | Triethoxy-n-octylsilane | LUVOMAXX® OCTASIL is used as hydrophobing agent and surface modifier for a variety of inorganic surfaces such as glass, glass fibres, mineral wool, silica, clay, mica, ATH and other hydroxides. Furthermore, LUVOMAXX® OCTASIL is applied as adhesion promoter and coupling agent that can physically interact via its non-polar alkyl chains with corresponding polymers in order to improve the reinforcement of fillers within the polymeric matrices. |
LUVOMAXX® VINYLOSIL T102 | Triethoxyvinylsilane | Due to its pronounced tendency to hydrolyze rapidly, LUVOMAXX® VINYLOSIL T102 is used as water-scavenging and drying agent in moisture-sensitive and moisture-cured formulations such as hybrid systems based on silan-terminated polymers in order to improve the storage stability and to prevent the systems from undesired curing. |
LUVOMAXX® VINYLOSIL T103 | Trimethoxyvinylsilane | Due to its pronounced tendency to hydrolyze rapidly, LUVOMAXX® VINYLOSIL T103 is used as water-scavenging and drying agent in moisture-sensitive and moisture-cured formulations such as hybrid systems based on silan-terminated polymers in order to improve the storage stability and to prevent the systems from undesired curing. |
Further products can be made available on request.
luvomaxx®-silanes-.pdf
Lamberti Chemical Specialties offers a large selection and range of aliphatic anionic polyurethane matting agents that impart functional properties (very low gloss), tactile effect and soft feel to water-based, solvent-borne, and solvent-free UV coatings. These matting agents are distinct polyurethane beads available in various form, range of particle sizes and colors. They contain no phthalates, no formaldehyde, no heavy metals and are also APEO-free and VOC-free.
DECOSPHAERA® polyurethane beads provide peak performance such as
DECOSPHAERA® polyurethane beads can be easily used in combination with standard matting agents.
Products | Particle Size D50 [µm] | Oil absorption [g/100g] | Tg [°C] | Application |
---|---|---|---|---|
DECOSPHAERA® 8 PC | 5 - 8 | 60 - 80 | ~ 38 | Fine, very hard beads. |
DECOSPHAERA® 8-20 | 5 - 8 | 70 - 120 | ~ 58 | Soft, fine beads. |
DECOSPHAERA® 8-20 HT | 5 - 8 | 70 - 120 | ~ 58 | Soft, fine beads. |
DECOSPHAERA® 15 F | 11 - 15 | 70 - 120 | ~ 58 | Soft, medium beads. Soft touch and burnishing resistance, texturing effect. |
DECOSPHAERA® 15 PC | 11 - 15 | 60 - 80 | ~ 38 | Very hard, medium beads. |
DECOSPHAERA® 30 F | 22 - 30 | 70 - 120 | ~ 58 | Soft, coarse beads. |
1 Typical values, not for specification purposes
typical-properties1-of-decosphaera®-transparent-series:.pdf
Products | Particle Size D50 [µm] | Oil absorption [g/100g] | Tg [°C] | Application |
---|---|---|---|---|
DECOSPHAERA® BIO 8 TR | 5 - 8 | 60 - 110 | ~ 78 | 50% renewable solids. Fine, soft beads. |
1 Typical values, not for specification purposes
typical-properties1-of-decosphaera®-bio-series:.pdf
Products | Particle Size D50 [µm] | Transparent | White | Black | Yellow | Red | Blue |
---|---|---|---|---|---|---|---|
DECOSPHAERA® 15 F | 11 - 15 | x | x | x | x | x | x |
DECOSPHAERA® 30 F | 22 - 30 | x | x | x | |||
DECOSPHAERA® 50-250 | 45 - 65 | x | x | x | x |
1 Typical values, not for specification purposes
typical-properties1-of-decosphaera®-colored-series:.pdf
End Use | Advantages |
---|---|
PVC floor and vinyl floor | Matting, slip control, waxy feeling, burnishing resistance |
Wood coatings | Furniture: Matting, smooth surfaces, scratch resistance Parquet: Natural look, burnishing resistance, slip control |
Wall and decorative paints | Deep matting, visual and tactile effects, good wet and dry burnishing resistance, high durability |
UV systems | Deep matting, soft touch, burnishing resistance |
Natural and artificial leather | Deep matting, high Taber values, chemical & thermal resistance, high hydrolysis resistance, absence of polishing before and after embossing process |
As the world’s only company dedicated to nitroalkanes and their derivatives, ANGUS offers a proprietary range of chemistries and custom blends that can provide unique reactivity and performance attributes as intermediates, building blocks, solvents and formulating additives for numerous specialty applications, including:
Products | Description | Application |
---|---|---|
AEPDTM VOX 1000 | AEPD™ VOX 1000 is a viscous, colorless to pale yellow liquid amino alcohol (Aminoethyl propanediol) that is fully miscible in water. | AEPD™ VOX 1000 is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. AEPD™ VOX 1000 is ideally suited for low-odor, low-VOC water-based architectural and industrial coatings applications. AEPDTM is also available as AEPD™ 85 (85% in aqueous solution). |
AMP-75™ | AMP-75™ is a colorless liquid amino alcohol (75% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-75™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-90™ | AMP-90™ is a colorless liquid amino alcohol (90% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-90™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-95™ | AMP-95™ is a colorless liquid amino alcohol (95% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-95™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-REGULAR™ | AMP-REGULAR™ is a colorless liquid amino alcohol (Aminomethyl propanol, anhydrous) that is fully miscible in water. | AMP-REGULAR™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
DMAMP-80TM | DMAMP-80™ is a colorless to light brown liquid amino alcohol (80% Dimethylamino methylpropanol in an aqueous solution) that is fully miscible in water. | DMAMP-80TM is a multifunctional amino alcohol used as resin solubilizer, emulsifier, synthetic intermediate, or catalyst for urethanes, epoxies and other reactive system, as well as multifunctional additive in water-based formulations to provide pH control, dispersion and stabilization of pigments, and excellent vapor phase corrosion inhibition. A low-water-content DMAMP™ REGULAR is also available for use in applications sensitive to water. |
TRIS AMINOTM Crystals | TRIS AMINO™ Crystals is a white, solid (crystalline) amino alcohol (Tris(hydroxymethyl)aminomethane) that is partially soluble in water. | TRIS AMINOTM Crystals is a multifunctional amino alcohol with excellent environmental health and safety profile used as crosslinker, hardener and chain extender in epoxy resins, powder coatings, adhesives and other reactive chemistry applications, as well as high-efficiency formaldehyde scavenger in decorative paints and building and construction materials. |
NIPAR S-10TM | NIPAR S-10™ is a HAPs-free (hazardous air pollutants), commercial-grade 1-nitropropane solvent with a low MIR (maximum incremental reactivity) value. | NIPAR S-10TM is a commercial-grade 1-nitropropane solvent as versatile thinner and solvent for aerosol paints, cellulose compounds and lacquers, vinyl resins for industrial coatings and printing inks, synthetic finish remover, and oil and spirit-soluble dyes of molded plastics. |
Products | Description | Application |
---|---|---|
LUVOTIX® R | Castor oil derivative | For various applications in low to medium polar systems at moderate temperatures |
LUVOTIX® R-RF | Castor oil derivative, inorganically modified | Free-flowing and easy dispersible for highly filled systems |
LUVOTIX® ZR 50 | Castor oil derivative, inorganically modified | For use in solvent-free and high solid formulations such as putties and sealants |
LUVOTIX® HT | Castor oil derivative, polyamide-modified | Temperature stabilized, for various applications in low to medium polar systems |
LUVOTIX® HT-SF | Castor oil derivative, polyamide-modified | Fine grade of LUVOTIX HT, for easier activation |
LUVOTIX® ZH 5 | Castor oil derivative, polyamide-modified, with inorganic content | Free-flowing and easy dispersible |
LUVOTIX® ZH 50 | Castor oil derivative, polyamide-modified, with inorganic content | For highly filled systems containing medium to higher polar solvents |
LUVOTIX® R400 | Castor oil derivative | Process additive and flow modifier |
LUVOTIX® HP | Polyamide | For solvent-based and -free systems of medium and higher polarity |
LUVOTIX® AB | Blend of polyamides | Sag control in high gloss and highly filled systems of medium and higher polarity |
LUVOTIX® SAB | Blend of polyamides | Sag control and anti-settling action, especially recommended for high-gloss systems based on acrylate or polyester |
LUVOTIX® PAB | Blend of polyamides | Control of rheological properties in gloss top-coats and in primers |
LUVOTIX® P 100-15 | Polyolefin | Anti-settling, slight viscosity increase |
LUVOTIX® VP031 | Polyolefin/stearic acid derivative hybrid | Easy activation, for high built coatings, sealants and adhesives based on MS-polymer |
LUVOTIX® LT1 | Blend of Polyamides | For solvent-based and -free formulations at low process temperatures |
LUVOTIX® LT10 | Blend of Polyamides | Activation at min. 50°C in high solids and in solvent free sealants and adhesives based on MS-polymer |
LUVOTIX® TK1 | 2-pack-rheological additive | Used in situ in combination with crosslinker LUVOTIX® CL1,suitable for all Systems independent on polarities |
LUVOTIX® CL1 | 2-pack-rheological additive | Used as a crosslinker in situ combined with LUVOTIX®TK1 in a mixing ratio 30:100 |
LUVOTIX® ATAC 10 | Low-viscosity acrylate emulsion, 30% in H2O | Shear-thinning rheological profile with weak thickening action |
LUVOTIX® ATAC 20 | Low-viscosity acrylate emulsion, 30% in H2O | Shear-thinning rheological profile with medium-strength thickening action |
LUVOTIX® ATAC 30 | Low-viscosity acrylate emulsion, 30% in H2O | Shear-thinning rheological profile with strong thickening action |
LUVOTIX® ATUR 10 | Non-ionic PU thickener | Newtonian rheological profile with weak thickening , 25% in H2O |
LUVOTIX® ATUR 20 | Non-ionic PU thickener | Slightly shear-thinning rheological profile with moderate thickening, 25% in H2O |
LUVOTIX® ATUR 30 | Non-ionic PU thickener | Strongly shear-thinning rheological profile with strong thickening, 40% in BTG/H2O |
luvotix®-manufacturer:-lehmann&voss&co..pdf
Products | Description | Application |
---|---|---|
LUVOGEL® 4 LUVOGEL® 4 B | Montmorillonite, organically modified | For low to medium polar systems, polar activator recommended |
LUVOGEL® 7 | Montmorillonite, organically modified | For medium to high polar systems, polar activator recommended |
LUVOGEL® SA 1 | Montmorillonite, organically modified | For a wide range of polarity, self-activating |
LUVOGEL® SA 10 | Montmorillonite, organically modified | For low-polar aliphatic systems, selfactivating |
LUVOGEL® G58 | Layered silicate, organically modified | Used as a rheological additive and anti-settle additive in unsaturated polyester resins, epoxy resins and vinyl esters, especially in styrene-containing and solvent-containing formulations of different polarity, but also in solvent-free epoxy resin systems |
Products | Description | Application |
---|---|---|
LUVOGEL® W1 | Montmorillonite, organically modified
| Anti-settling agent
|
LUVOGEL® W2N | Synthetic Hectorite | Thickening agent forming strong thixotropy for pigmented and transparent systems
|
LUVOGEL® W3 | Montmorillonite, organically modified
| Anti-settling and thixotropic agent |
LUVOGEL® WS1 | Synthetic hectorite | Used as a rheological booster in combination with associative thickeners. As the sole rheological additive, it acts as a thixotropic agent.
|
LUVOGEL® WS2 | Synthetic hectorite | Used as a rheological booster, thixotropic agent and stabilizer of multicolour paints |
LUVOGEL® AQ | Synthetic hectorite | Excellent stabilisation and orientation of effect pigments, forms colourless colloidal dispersions in water |
Inorganic thickeners of the WOLLATROP® series are based on inosilicate technology. This technology has a similar effect to the well-known phyllosilicate thickeners, but behaves very differently in the high shear range. Due to the thread-like structure, alignment in the printing direction is possible, which allows easier processing than comparable phyllosilicates.
The WOLLATROP® series permits the use of inorganic thickeners in aqueous systems. Their valued properties in the high shear range as well as their strong thixotropic effect support an excellent product. By combining different types it is possible to create a rheology profile tailored to the needs of the user. With different processes it is possible to significantly influence the thickening effect.
Series | Product | Description | Applications |
---|---|---|---|
WOLLATROP®-S Series | WOLLATROP®-S | Specially prepared, 100% mineral silicate additives with a particularly high active surface Improvement in the sagging behaviour of coatings and reduction in the settling of pigments and fillers | Preferred in building chemistry applications such as building adhesives and sealing compounds. Rheological adjustment for water-based paints and lacquers. |
WOLLATROP®-SE | |||
WOLLATROP®-SF | |||
WOLLATROP®-S/240 | WOLLATROP®-S/240 is a 100% natural mineral compound which acts as a very good thixotropic agent. | Crack bridging in building chemicals, adhesives, sealants and putties | |
WOLLATROP®-LV | WOLLATROP®-LV is a silicate additive which has been given a particularly high active surface area by a special digestion process. WOLLATROP®-LV reduces sagging and settling of pigments and fillers. | Water-borne paints and lacquers Building chemicals | |
WOLLATROP®-M | WOLLATROP®-M is based on hydrous magnesium silicate and controls the rheology by absorption of the solvent. Especially recommended for higher temperatures.
| Higher temperature applications |
As the world’s only company dedicated to nitroalkanes and their derivatives, ANGUS offers a proprietary range of chemistries and custom blends that can provide unique reactivity and performance attributes as intermediates, building blocks, solvents and formulating additives for numerous specialty applications, including:
Products | Description | Application |
---|---|---|
AEPDTM VOX 1000 | AEPD™ VOX 1000 is a viscous, colorless to pale yellow liquid amino alcohol (Aminoethyl propanediol) that is fully miscible in water. | AEPD™ VOX 1000 is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. AEPD™ VOX 1000 is ideally suited for low-odor, low-VOC water-based architectural and industrial coatings applications. AEPDTM is also available as AEPD™ 85 (85% in aqueous solution). |
AMP-75™ | AMP-75™ is a colorless liquid amino alcohol (75% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-75™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-90™ | AMP-90™ is a colorless liquid amino alcohol (90% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-90™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-95™ | AMP-95™ is a colorless liquid amino alcohol (95% Aminomethyl propanol in an aqueous solution) that is fully miscible in water. | AMP-95™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
AMP-REGULAR™ | AMP-REGULAR™ is a colorless liquid amino alcohol (Aminomethyl propanol, anhydrous) that is fully miscible in water. | AMP-REGULAR™ is a multifunctional amino alcohol used as compatibilizer and stabilizer for emulsions and water-based formulations, co-dispersant for pigments, extenders, and other slurry systems, as well as efficient neutralizer for acid-functional ingredients in a broad range of applications. |
DMAMP-80TM | DMAMP-80™ is a colorless to light brown liquid amino alcohol (80% Dimethylamino methylpropanol in an aqueous solution) that is fully miscible in water. | DMAMP-80TM is a multifunctional amino alcohol used as resin solubilizer, emulsifier, synthetic intermediate, or catalyst for urethanes, epoxies and other reactive system, as well as multifunctional additive in water-based formulations to provide pH control, dispersion and stabilization of pigments, and excellent vapor phase corrosion inhibition. A low-water-content DMAMP™ REGULAR is also available for use in applications sensitive to water. |
ALKATERGETM E | ALKATERGE™ E is a non-volatile, viscous liquid oxazoline that is fully miscible with mineral and vegetable oils as well as most organic solvents. | ALKATERGETM E is a non-volatile, oxazoline-based surface-active agent used as pigment grinding aid and pigment dispersant in mineral oil and resin vehicles, as well as dispersant for flatting agents in varnishes and enamels. |
wetting-and-dispersing-additives.pdf
Lamberti Chemical Specialties does not only utilize its broad experience in polyurethane chemistry in order to develop and offer a comprehensive portfolio of water-based polyurethane dispersions but also to provide a specialized portfolio of dispersing agents to particularly address the high-quality needs of water-based digital printing inks.
The FLUIJET® dispersing agent range is characterized by a distinct compatibility with water and polar organic solvents, as well as, excellent dispersing and stabilizing properties for inorganic and organic (particularly CYMK) pigments resulting in strong reduction of mill base viscosity, excellent printability and storage stability, and outstanding coloristic properties of the pigment concentrates and formulated inks.
Products | Description | Application |
---|---|---|
FLUIJET® 1725 | FLUIJET® 1725 is a dispersing and stabilizing agent based on an anionic polymer for organic and inorganic pigments as well as sublimation/disperse dyes in water-based systems. | FLUIJET® 1725 is a universal polymeric dispersant able to disperse organic and inorganic pigments in water and/or water-based systems (water-glycol or water-alcohol systems) as well as disperse dyes for sublimation applications. It provides high milling efficiency, outstanding pigments/dyes wettability, and low viscosity dispersions, as well as, prevents pigments/dyes flocculation upon storage by means of good steric stabilization. |
FLUIJET® 1726 | FLUIJET® 1726 is a polymeric dispersing and stabilizing agent for sublimation/disperse dyes in water-based systems. | FLUIJET® 1726 is a polymeric dispersant specifically suitable for sublimation/disperse dyes (water-glycol systems). It provides high milling efficiency, prevents dyes flocculation upon storage, offers low viscous dispersions with good stability in inkjet ink water-based formulations, is compatible with a broad range of glycols in aqueous mixtures, and develops higher release in sublimation printing compared to traditional dispersants. |
FLUIJET® 1730 | FLUIJET® 1730 is a dispersing and stabilizing agent based on an anionic polymer for organic pigments in water-based inkjet ink formulations. | FLUIJET® 1730 is a polymeric dispersant with pigment-affinic groups able to disperse organic pigments in water and/or water-based systems (water-glycol or water-alcohol systems). The product is particularly recommended for stabilizing phthalocyanine, quinacridone and diarylide pigments and provides high milling efficiency, prevents pigments flocculation upon storage by means of good steric stabilization, and offers broad compatibility with polymeric binders typically used in water-based inkjet inks. |
FLUIJET® 1731 | FLUIJET® 1731 is a low VOC dispersing and stabilizing agent based on an anionic polymer for organic pigments in water-based inkjet formulations. | FLUIJET® 1731 is a low VOC, polymeric dispersant with pigment-affinic groups able to disperse organic pigments in water and/or water-based systems (water-glycol or water-alcohol systems). The product is particularly recommended for stabilizing phthalocyanine, quinacridone and diarylide organic pigments. The pigment dispersions obtained can be let down with polymeric aqueous polyurethane or acrylate binders. |
FLUIJET® 1735 | FLUIJET® 1735 is a low VOC dispersing and stabilizing agent based on an anionic polymer for organic pigments in water-based inkjet formulations. | FLUIJET® 1735 is a low VOC, polymeric dispersant with pigment-affinic groups able to disperse organic pigments in water and/or water-based systems (water-glycol or water-alcohol systems). The product is particularly recommended for stabilizing phthalocyanine, quinacridone and diarylide organic pigments. The pigment dispersions obtained can be let down with polymeric aqueous polyurethane or acrylate binders. |
FLUIJET® DS 19 | FLUIJET® DS 19 is a dispersing and stabilizing agent based on anionic and nonionic surfactants for organic pigments. | FLUIJET® DS 19 is a polymeric dispersant able to disperse organic pigments in water and/or water-based systems (water-glycol or water-alcohol systems) with particular focus on PV 23. |
IDROL® H 20 F | IDROL® H 20 F is a pasty, fatty acid based emulsifying agent particularly designed for alkyd resins and formulations thereof. | IDROL® H 20 F allows the incorporation of up to 20% water into solvent-based enamels and is particularly designed for all products based on Long Oil and Medium Oil Alkyds. |
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