Functionalized PVDF systems, specialty compounding, high-performance industrial applications
Syensqo
Available by request.
Solef® 5130 is a functionalized ultra high molecular weight PVDF homopolymer designed for demanding applications requiring enhanced material interaction characteristics combined with exceptional fluoropolymer durability. Its ultra high molecular weight structure supports outstanding toughness, abrasion resistance, and long-term mechanical performance, while the functionalized chemistry expands its suitability for specialized formulations and advanced material systems. Solef® 5130 is well suited for high-performance industrial applications where durability, chemical resistance, and specialized material behavior are critical.
SPECIALTY COMPOUNDING & FORMULATION SYSTEMS
Functionalized chemistry supports advanced formulations and specialty PVDF systems requiring enhanced material interaction characteristics.
HIGH-PERFORMANCE INDUSTRIAL FABRICATION
Ultra high molecular weight structure provides exceptional toughness and long-term durability in demanding fabricated PVDF components.
CHEMICAL-RESISTANT INDUSTRIAL SYSTEMS
Applicable in harsh operating environments requiring the inherent corrosion resistance, thermal stability, and environmental durability of PVDF materials.
WEAR-RESISTANT COMPONENTS
Suitable for industrial components exposed to abrasion, repeated mechanical stress, or continuous operating conditions requiring extended service life.
ADVANCED MATERIAL DEVELOPMENT
Useful in specialized fluoropolymer systems and material development applications requiring functionalized PVDF behavior.
SPECIALTY EXTRUSION APPLICATIONS
Applicable in extrusion environments requiring highly durable fluoropolymer materials with enhanced formulation flexibility.
LONG-LIFE INDUSTRIAL COMPONENTS
Well suited for fabricated parts requiring a combination of durability, chemical resistance, and high-performance fluoropolymer properties.
| Grade | Form | Best For | Key Differentiator |
|---|---|---|---|
| Solef® 1006 | Powder & Granules | High-flow processing applications | Very low molecular weight |
| Solef® 6008 | Powder & Granules | Easier processing applications | Low molecular weight |
| Solef® 6010 | Powder & Granules | General-purpose applications | Medium molecular weight |
| Solef® 6012 | Powder & Granules | Higher molecular weight applications | High molecular weight |
| Solef® 1015 | Powder | Wear-resistant applications | Very high molecular weight |
| Solef® 6020 | Powder | Extreme durability applications | Ultra high molecular weight |
| Solef® 5130 | Powder | Functionalized PVDF applications | Functionalized ultra high molecular weight |
| Solef® 9009 | Powder & Granules | Balanced mechanical performance | Medium molecular weight |
| Solef® 460 | Powder & Granules | Toughened PVDF applications | Branched high molecular weight structure |
| Solef® 41308 | Powder & Granules | Multilayer structures | Enhanced adhesion |
| Grade | Form | Best For | Key Differentiator |
|---|---|---|---|
| Solef® 11010 | Powder & Granules | Flexible components | Flexible VF2-HFP copolymer |
| Solef® 21510 | Powder & Granules | Very flexible components | Very flexible VF2-HFP copolymer |
| Solef® 31508 | Powder & Granules | Low-temperature flexibility | Flexible VF2-CTFE copolymer |
| Solef® 60512 | Granules | Flexible piping systems | Special grade for high-pressure flexibility |
Solef® PVDF is a line of high-performance fluoropolymers designed for demanding industrial, electrical, chemical processing, and energy applications. Available in a wide range of homopolymer and copolymer grades, Solef® PVDF combines excellent chemical resistance, mechanical strength, thermal stability, and long-term durability, along with broad processability across extrusion, molding, coating, and film applications.
Its balance of purity, weatherability, dielectric performance, and resistance to harsh environments makes Solef® PVDF well suited for applications ranging from wire & cable and chemical handling systems to lithium-ion batteries and high-purity processing environments.