CRAYVALLAC® ANTISETTLE CVP | Arkema Rheology & Specialty Additives | CRAYVALLAC® ANTISETTLE CVP is a 100 % active and bio-sourced castor derivative rheology modifier for solvent-based and solvent-free systems. CRAYVALLAC® ANTISETTLE CVP is suited to coating systems based on aliphatic hydrocarbons. It shows excellent contro...展开 CRAYVALLAC® ANTISETTLE CVP is a 100 % active and bio-sourced castor derivative rheology modifier for solvent-based and solvent-free systems. CRAYVALLAC® ANTISETTLE CVP is suited to coating systems based on aliphatic hydrocarbons. It shows excellent control of sedimentation combined with ease of application. In addition to coatings applications, CRAYVALLAC® ANTISETTLE CVP has also been used successfully in a multitude of other applications such as inks, adhesives, mastics, caulks, sealants, fillers, greases and lubricants. 收起 | Request Sample |
CRAYVALLAC® LA-150 | Arkema Rheology & Specialty Additives | CRAYVALLAC® LA-150 is a pourable liquid rheology modifier supplied in Dimethylsulfoxide (DMSO) for post addition to medium to high polarity solvent based coatings. It shows excellent control of sedimentation combined with ease of application. | Request Sample |
CRAYVALLAC® MT | Arkema Rheology & Specialty Additives | CRAYVALLAC® MT is a 100 % active and highly bio-sourced modified castor derivative rheology modifier for solvent-based and solvent-free systems. CRAYVALLAC® MT is suited to coating systems based on aliphatic hydrocarbons, aromatic hydrocarbons and aromati...展开 CRAYVALLAC® MT is a 100 % active and highly bio-sourced modified castor derivative rheology modifier for solvent-based and solvent-free systems. CRAYVALLAC® MT is suited to coating systems based on aliphatic hydrocarbons, aromatic hydrocarbons and aromatic hydrocarbon/alcohol blends. It shows excellent control of sedimentation combined with ease of application. 收起 | Request Sample |
CRAYVALLAC® OPTIMA | Arkema Rheology & Specialty Additives | CRAYVALLAC® OPTIMA is a high-performance, micronized amide wax rheology modifier suitable for high-solids and solvent-free applications recommended for its ease of activation and smooth viscosity recovery (good leveling). CRAYVALLAC® OPTIMA overcomes thos...展开 CRAYVALLAC® OPTIMA is a high-performance, micronized amide wax rheology modifier suitable for high-solids and solvent-free applications recommended for its ease of activation and smooth viscosity recovery (good leveling). CRAYVALLAC® OPTIMA overcomes those difficulties that exist with hydrogenated castor oil-based rheology modifiers e.g. seeding and false-body without the need to increase the temperature of activation. Its smooth viscosity recovery will help to achieve high film thickness without compromising good leveling. 收起 | Request Sample |
CRAYVALLAC® PA3 X 20 | Arkema Rheology & Specialty Additives | CRAYVALLAC® PA3 X 20 is a pre-activated amide wax dispersed in a mixture of xylene and alcohols. It is a rheology modifier in paste form for post-addition to solvent-based industrial coatings and industrial wood finishes. The use of CRAYVALLAC® PA3 X 20 p...展开 CRAYVALLAC® PA3 X 20 is a pre-activated amide wax dispersed in a mixture of xylene and alcohols. It is a rheology modifier in paste form for post-addition to solvent-based industrial coatings and industrial wood finishes. The use of CRAYVALLAC® PA3 X 20 provides a very simple and direct means of introducing shear-thinning rheology with thixotropic viscosity recovery to coating formulations. 收起 | Request Sample |
CRAYVALLAC® SF | Arkema Rheology & Specialty Additives | CRAYVALLAC® SF is a proprietary amide-modified hydrogenated castor oil rheology modifier with enhanced tolerance to temperature and solvent strength suitable for a variety of different solvent-based systems e.g. aromatic hydrocarbons and aromatic hydrocar...展开 CRAYVALLAC® SF is a proprietary amide-modified hydrogenated castor oil rheology modifier with enhanced tolerance to temperature and solvent strength suitable for a variety of different solvent-based systems e.g. aromatic hydrocarbons and aromatic hydrocarbon/alcohol blends. Compared to other hydrogenated castor oil-based rheology modifiers, CRAYVALLAC® SF is more tolerant to strong solvents and high processing temperatures due to the presence of its unique performance-enhancing amide. The activation process constitutes the conversion of the CRAYVALLAC® SF particles to an interacting network of fiber-like particles. It is this network that gives rise to the final coating’s shear-thinning rheology. This shear thinning characteristic provides a very high viscosity under the low shear rates associated with sedimentation, and a low viscosity at the much higher application shear rates. The net result is excellent control of sedimentation combined with ease of application. 收起 | Request Sample |
CRAYVALLAC® SL | Arkema Rheology & Specialty Additives | CRAYVALLAC® SL is a high-performance micronized amide wax rheology modifier designed for the high-temperature manufacture of moisture curing methoxy silane systems, where processing temperatures typically lie within the range of 90 – 115°C. CRAYVALLAC® SL...展开 CRAYVALLAC® SL is a high-performance micronized amide wax rheology modifier designed for the high-temperature manufacture of moisture curing methoxy silane systems, where processing temperatures typically lie within the range of 90 – 115°C. CRAYVALLAC® SL particles are converted to an interacting network of crystalline fibers. It is this network that gives rise to the shear thinning rheology. This shear thinning characteristic provides for a low viscosity at the shear rates associated with application by extrusion, and a very high viscosity under the low shear rates experienced after application. The net result is ease of application followed by excellent sag and slump resistance. 收起 | Request Sample |
CRAYVALLAC® SLT | Arkema Rheology & Specialty Additives | CRAYVALLAC® SLT is a 100 % active and highly bio-sourced polyamide powder rheology modifier designed for the low temperature manufacture of moisture curing methoxysilane based sealants and adhesives where processing temperatures typically lie within the r...展开 CRAYVALLAC® SLT is a 100 % active and highly bio-sourced polyamide powder rheology modifier designed for the low temperature manufacture of moisture curing methoxysilane based sealants and adhesives where processing temperatures typically lie within the range 30 - 80°C. It imparts a shear thinning rheology profile allowing ease of application followed by excellent sag and slump resistance. 收起 | Request Sample |
CRAYVALLAC® SLW | Arkema Rheology & Specialty Additives | CRAYVALLAC® SLW is a 100 % active and highly bio-sourced polyamide rheology modifier designed for manufacture of reactive adhesives & sealants, especially high tack systems (high filler content, demanding applications…). CRAYVALLAC® SLW is specially desi...展开 CRAYVALLAC® SLW is a 100 % active and highly bio-sourced polyamide rheology modifier designed for manufacture of reactive adhesives & sealants, especially high tack systems (high filler content, demanding applications…). CRAYVALLAC® SLW is specially designed for manufacture of one-component Silyl-Terminated-Polymer systems where processing temperatures typically lie within the range 55 - 90°C. It imparts a shear thinning rheology profile allowing ease of application followed by excellent sag and slump resistance. 收起 | Request Sample |
CRAYVALLAC® SLX | Arkema Rheology & Specialty Additives | CRAYVALLAC® SLX is a 100 % active and highly bio-sourced polyamide powder rheology modifier designed for the low temperature manufacture of moisture curing methoxysilane based sealants and adhesives where processing temperatures typically lie within the r...展开 CRAYVALLAC® SLX is a 100 % active and highly bio-sourced polyamide powder rheology modifier designed for the low temperature manufacture of moisture curing methoxysilane based sealants and adhesives where processing temperatures typically lie within the range 60 - 90°C. It imparts a shear thinning rheology profile allowing ease of application followed by excellent sag and slump resistance. 收起 | Request Sample |