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All Right Reserved
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HS Code |
951976 |
| Chemical Name | Poly Vinylidene Fluoride |
| Product Grade | FR907 |
| Appearance | White powder |
| Molecular Formula | (C2H2F2)n |
| Density | 1.75-1.78 g/cm3 |
| Melting Point | 165-175°C |
| Thermal Stability | Up to 170°C |
| Flammability | Self-extinguishing |
| Dielectric Constant | 8.4 at 1 kHz |
| Tensile Strength | 40-55 MPa |
| Water Absorption | <0.03% |
| Solubility | Insoluble in water, soluble in some organic solvents |
| Color | White |
| Processing Method | Melt extrusion, injection molding |
| Application | Wire and cable insulation, chemical lining |
As an accredited Poly Vinylidene Fluoride FR907 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Poly Vinylidene Fluoride FR907 is typically packaged in 25 kg net weight polyethylene-lined, moisture-proof paper bags, ensuring product integrity. |
| Shipping | Poly Vinylidene Fluoride FR907 is shipped in tightly sealed, moisture-proof packaging, typically in 25 kg bags or drums. Ensure the containers are clearly labeled and handled according to chemical safety regulations. Store and transport in a cool, dry, and well-ventilated area, away from sources of heat, ignition, and incompatible substances. |
| Storage | Poly Vinylidene Fluoride FR907 should be stored in tightly sealed containers in a cool, dry, and well-ventilated area away from direct sunlight and sources of heat or ignition. Avoid contact with strong acids, bases, or oxidizing agents. Store separately from incompatible materials. Ensure the storage area is equipped with appropriate spill containment and complies with local safety regulations for chemical storage. |
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Purity 99.5%: Poly Vinylidene Fluoride FR907 with 99.5% purity is used in lithium-ion battery separators, where high chemical resistance and low ionic contamination enhance battery lifespan. Melting Point 170°C: Poly Vinylidene Fluoride FR907 with a melting point of 170°C is used in wire and cable jacketing, where superior thermal endurance improves fire safety. Average Particle Size 4 μm: Poly Vinylidene Fluoride FR907 at 4 μm particle size is used in powder coatings for industrial equipment, where uniform coverage delivers exceptional corrosion protection. Viscosity Grade High: Poly Vinylidene Fluoride FR907 of high viscosity grade is used in membrane production, where dense structure formation achieves optimal filtration efficiency. Stability Temperature 150°C: Poly Vinylidene Fluoride FR907 with stability up to 150°C is applied in chemical processing linings, where sustained operation at elevated temperatures reduces maintenance frequency. Molecular Weight 300,000 g/mol: Poly Vinylidene Fluoride FR907 of 300,000 g/mol molecular weight is used in fuel hose manufacturing, where mechanical strength ensures long-term flexibility and pressure resistance. Electrical Resistivity 10¹⁵ Ω·cm: Poly Vinylidene Fluoride FR907 with electrical resistivity of 10¹⁵ Ω·cm is utilized in electronic device encapsulation, where high insulation properties minimize circuit failure risk. Water Absorption <0.05%: Poly Vinylidene Fluoride FR907 with water absorption below 0.05% is used in outdoor construction panels, where minimal moisture uptake maintains dimensional stability and weather resistance. |
Competitive Poly Vinylidene Fluoride FR907 prices that fit your budget—flexible terms and customized quotes for every order.
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Across our decades in the chemical manufacturing industry, we’ve often heard the same story from engineers: they need a resin that refuses to give in under heat, chemicals, and constant load. Poly Vinylidene Fluoride FR907 comes from a place of answering those real-world durability demands. We produce this resin to push the limits of what manufacturers expect from PVDF, because we’ve listened to what works—and what fails—across factories and field installations worldwide.
Every lot of FR907 comes out of reactors designed, operated, and refined by teams who have handled fluoropolymers since the early days. This isn’t a case of rebagging someone else’s resin or chasing the latest buzzword; it’s a resin born from a focus on process reliability and batch-to-batch consistency. The base powder delivers a balance of excellent mechanical strength, resistance to UV, humidity, acids, solvents, and an ability to hold up under temperatures that see other plastics soften or break down.
Those running wire and cable extrusion lines, lithium battery separator film operations, and chemical processing plants rarely want surprises. Fluctuating melt flow or uneven molecular weight distribution means headaches, extra scrap, and calls at midnight when tanks spring leaks or films tear. By controlling polymerization conditions and optimizing purification, each kilogram of FR907 stays within the melt viscosity and purity windows that our customers count on.
Not all PVDF types are cut from the same cloth. Many grades come off production lines designed for general use. FR907 stands apart in its optimized particle size and surface characteristics, which matter directly to how it handles in advanced processing. Take electrochemical and battery sectors as an example—users need to keep electrode slurries flowing evenly and bonded films defect-free. Here, FR907’s tighter spec limits, ensured by our team’s hands-on systems, show their worth. Consistent surface characteristics mean less batch-to-batch tweaking and fewer unexpected production shutdowns.
Early on, PVC and other fluoro-polymers gained a reputation for durability. Today’s requirements look different: higher voltage, finer insulation layers, thinner films, tougher standards for chemical resistance. With FR907, we build on those challenges. We don’t just ship bulk powder and call it a day. Each run comes with a full dossier of particle metrics and chemical purity indicators. Feedback from coating line engineers, battery research leads, and lab managers continually comes back into our refining loop.
Line operators and plant managers know paper specs sometimes hide ugly surprises. Actual production throws out curveballs that don’t always show up on datasheets—fluctuating resin flow, odd dispersions in solvents, unpredictable heat aging. Here’s where being an actual manufacturer lets us speak from experience rather than theoretical charts. We’ve spent years tuning our reactors, hear about real production runs, and see firsthand how certain trace impurities impact processing—something lost in bulk reselling chains.
FR907 was built on this ground-level learning. For example, our internal tests did not stop at viscosity and mechanical properties; we ran accelerated weathering, tracked fluorine retention over repeated cycling, and conducted pigment mixing assessments with leading end-users. These efforts are grounded in our on-site pilot lines, not outsourced labs, which lets us react fast if new industry demands surface. Our feedback pipeline from customers directly changes how we control polymerization and post-processing.
Once rolls of separator film or bundles of insulated wire leave the plant, material choice reveals its true worth. In our years manufacturing fluoropolymers, we’ve seen projects sink or swim on small differences in raw material consistency. For example, in lithium battery separators, pore size uniformity is critical for safe performance. One off-spec batch can wreck investment in high-end production machinery. FR907’s role here is plain: steady, clean, reliable resin keeps lines up, labs focused on innovation instead of root cause investigation, and customers meeting tighter safety and certification demands.
Much of this confidence rests in decades of close work with customer R&D teams. Advanced applications—from chemical container linings to high-frequency cable insulation—require a resin that can be processed in diverse systems, handle various plasticizers, and not cause unpredictable pigment or additive migration. Our process keeps critical impurity ions like chlorine and alkali metals below the levels that generate complaints or failures. The philosophy here comes out of repeated, hard-earned feedback from industries. This results in less downtime and fewer costly interruptions down the line.
Few products have reshaped energy and electronics as much as lithium batteries. Battery engineers often describe how tiny shifts in binder performance change the total cycle life or thermal stability of their cells. FR907 delivers low ionic contamination, strong retention of adhesion, and compatibility with both standard solvents and more aggressive blends. It forms stable, homogenous slurries, a detail that’s not lost on production managers keen to avoid blockages or sediment issues.
In electronics and cable, customers source FR907 for insulation in everything from coaxial cable to data transmission lines. Why do they keep coming back for this model? Rugged resistance to arcing, minimal change in dielectric properties after heat aging, and an ability to survive harsh chemical exposure all play their part. Our compounders tell us this saves both reprocessing costs and failed-end product returns. Knowing the resin’s background and handling, our users can tweak lines for higher yields instead of fighting material limitations.
For chemical processing equipment, safe operation in corrosive environments demands confidence in every resin shipment. Tanks that line up for years in chlorine, bromine, or acid transfer draw on the fundamental chemical stability that PVDF offers. FR907’s low crystallinity variation ensures fewer pinholes and microcrack issues under long-term load. Plant maintenance teams often note longer service intervals after switching from lower-grade bulk alternatives.
Over the years, it’s become clear that theory alone falls short. Actual performance gets written not by what’s promised, but by what happens at the press, extruder, or film line. Time and again, plant managers have shared how FR907 resists uneven heating and weld line weaknesses that lower-grade materials fail to overcome. One composite tank fabricator described how the product’s melt flow steadiness helped them slash repair rates by close to half compared to prior suppliers. Feedback like this doesn’t just land in marketing slides; we bring it straight back to our process teams to guide incremental improvements.
Battery manufacturers tell us that, thanks to FR907’s clean baseline purity, they see fewer problems with dendrite formation and cutoff shorts. Coating line engineers working with high-demand films report smoother film formation, less curling, and cleaner die exits. Wire and cable extrusion experts have managed to cut set-up times since they rarely face the unpredictable viscosity swings common with commodity resin. We see it as our responsibility to stay accountable—real-world wins and failures both shape our product standards.
Many suppliers sell PVDF powder. Few control the whole upstream process, refining purification, polymerization, and surface treatment to this level. Some alternatives out there may come at a cheaper upfront cost, but these often lack the narrow particle size distribution or exacting purity levels that make or break critical tech industries. Over the long haul, material consistency outweighs headline price.
For example, imported commodity PVDF can mix moisture or non-uniform grain issues into process lines. The result: hopper blockages, inconsistent dispersion in solvents or water, or off-odor development under heat. Our batches for FR907 undergo multi-stage filtration and drying. Where competitors may rely on repacked bulk, we focus on trace elimination of byproducts and cross-contamination. This attention means lower rejection rates, less production downtime, and more predictable product lifecycles.
Some grades push flow on paper, but break down in high-temperature cycling. FR907’s backbone, designed from years of internal study and cooperation with international end-users, sustains its properties through cycles of flex, tension, and exposure. The result is tested mechanical endurance and reliable resistance to chemical creep, pressure bursts, or voltage surges.
From the start, manufacturing has always meant more than just turning raw precursors into powder and shipping out bags. Teams here get involved at every stage—sourcing, reaction control, post-handling, blending, and packaging. FR907 evolved from close ties to customers running real equipment and solving their own headaches, not from guessing at market trends. We constantly update our protocols to address new contaminants, improve resin morphology, and tackle user feedback.
We also carry out aging studies, tracking performance of FR907 samples years after production. Long-tail data gives us—and our industrial partners—confidence that tanks, films, and cable insulation will keep working safely years or even decades after installation. One reason engineers turn to us for their most demanding jobs comes from these long-standing partnerships. They know we follow up, stay transparent on challenges, and chase down every small technical issue.
Many of our buyers face faster innovation cycles, tighter safety standards, and cost pressure from across the supply chain. Rather than see this as a problem to dodge, we view it as the next logical chapter for manufacturing. FR907 reflects that attitude: it shows up not just as a commodity, but as a backbone for products that can’t afford to fail. When energy storage research pivots or telecom cabling specs change, we’re ready to adapt. Process adaptability and rapid support set us apart from generic sources.
For those facing supply chain headaches, local inventory at competitive volume is another real-world edge. By delivering consistent resin beyond just the minimum spec, we help buffer downstream operations against the risk of project delays or costly reformulations. Trust in the feedstock translates directly into smoother scale-ups, fewer failed batches, and better end product reputation.
Our product teams attend industry conferences, join technical forums, and follow customer R&D so emerging trends don’t catch us off guard. Two-way communication is part of the company’s DNA: feedback on FR907’s launch guided us to push impurity levels even lower, and adjust granulation to eliminate agglomerate formation seen in early mixing systems. Every improvement circles back into manufacturing, so the resin keeps pace with next-generation conductivity, thermal cycling, or chemical requirements.
It’s also about recognizing new technical challenges. OEM partners in battery and sensor industries told us how tighter energy efficiency targets forced a move to thinner, more precisely cast separator films. That meant doubling down on particle distribution and pushing purification systems harder. We invested in new inline monitoring, added analytics to reduce batch deviation, and adjusted resin drying protocols. The payoff came when customers hit yield rates that kept their products competitive and certification-ready.
Safety teams and quality inspectors, especially in chemical and electronics plants, pay close attention to any sign of off-odor, dusting, or allergenic residue. FR907 undergoes rigorous safety checks, and each shipment comes with documentation owned by our people—never generic third-party forms. In industries where regulatory traceability matters, controlling the entire production run lets us guarantee where every raw material, reactor, and shipment originates.
Accrediting bodies and environmental auditors have raised the bar for chemical compliance. Staying ahead means updating protocols, welcoming external audits, and sharing our full resin traceability chain. Power doesn’t come from slogans or copy-paste templates, but by knowing exactly how the resin you’re running today came off yesterday’s line, under hands-on supervision.
We also partner closely with downstream manufacturers in troubleshooting and application support. Our technical service teams regularly visit customer plants to observe problems firsthand and recommend resin or process adjustments—something no spreadsheet can replicate. Where new uses emerge, like advanced coatings for green energy or medical devices, we rapidly prototype and scale trial lots for real-world feedback. These experience-based solutions shape the evolution of FR907 far more than inside-the-box product “innovation”.
When product recalls or faulty installations hit the news, often the root issue traces back to corners cut on raw material selection or supplier engagement. Experienced manufacturers prioritize risk reduction by starting with reliable, field-tested resin. Every time a new sector comes up—EV batteries, hydrogen handling, specialty membranes—we pull the lessons back from our material science, pilot plant, and customer field service teams to sharpen our output.
Trends like electric mobility, microelectronics, and chemical recycling will keep tightening the screws on what manufacturers expect from engineering plastics. No one can hold back these changes; our role is to keep improving how FR907 delivers under tough constraints. Customer teams challenge us to push boundaries on melt flow, ionic purity, or adaptability for emerging process chemistries. Production today runs at higher speed, with less room for error—and no forgiveness for inconsistent feeding or unpredictable blends. We’ve seen that delivering a resin that keeps up, batch after batch, defines long-term advantage far more than big-splash marketing.
Every year brings new process innovations, hostile chemical exposures, or tighter demands for dielectric stability at the smallest possible gauge. As manufacturing specialists, we stay engaged at every step, making sure FR907 meets these challenges head-on. User trials, direct site visits, lab analysis, and data benchmarking all feed into a continual upgrade process. The end goal is always the same: keep our customers building the safest, most durable, and competitively priced products on the market.
Poly Vinylidene Fluoride FR907 is more than a name on a bag—it represents the sum of direct production experience, listening to on-site challenges, and a drive for better technical reliability. Having seen thousands of tons transformed into pipes, separators, cable, and films, we know every batch needs to deliver. Customers aren’t just looking for a product—they’re seeking a partner who can back up performance, adapt to new requirements, and deliver peace of mind when the stakes are highest. That’s the commitment we put behind FR907 every day.
