|
HS Code |
713069 |
| Product Name | Poly(Vinylidene Fluoride) JHD 2008 Resin |
| Chemical Formula | (C2H2F2)n |
| Appearance | White granular or powder resin |
| Melt Flow Index | 6-12 g/10 min (230°C, 5 kg) |
| Density | 1.75-1.78 g/cm3 |
| Melting Point | 155-170°C |
| Tensile Strength | ≥ 38 MPa |
| Elongation At Break | ≥ 50% |
| Dielectric Constant | 8-12 (1 kHz) |
| Water Absorption | ≤ 0.04% |
| Thermal Decomposition Temperature | ≥ 350°C |
| Particle Size | 90% below 25 µm |
As an accredited Poly(Vinylidene Fluoride) JHD 2008 Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
|
Purity 99.5%: Poly(Vinylidene Fluoride) JHD 2008 Resin with a purity of 99.5% is used in lithium-ion battery separators, where it ensures high ionic conductivity and minimal contamination. Viscosity Grade 7,500 mPa·s: Poly(Vinylidene Fluoride) JHD 2008 Resin of viscosity grade 7,500 mPa·s is used in membrane casting, where it provides uniform film formation and enhanced mechanical strength. Molecular Weight 500,000 g/mol: Poly(Vinylidene Fluoride) JHD 2008 Resin with a molecular weight of 500,000 g/mol is used in wire and cable insulation, where it delivers superior flexibility and dielectric performance. Melting Point 172°C: Poly(Vinylidene Fluoride) JHD 2008 Resin with a melting point of 172°C is used in injection molding for valve linings, where it enables thermal stability and precise dimensional control. Particle Size D50 40 μm: Poly(Vinylidene Fluoride) JHD 2008 Resin with a particle size D50 of 40 μm is used in powder coatings, where it contributes to a smooth surface finish and consistent coverage. Thermal Stability 150°C: Poly(Vinylidene Fluoride) JHD 2008 Resin with thermal stability up to 150°C is used in chemical processing equipment, where it maintains structural integrity under prolonged heat exposure. Solubility in NMP: Poly(Vinylidene Fluoride) JHD 2008 Resin with excellent solubility in NMP is used in electrode binder applications, where it achieves optimal dispersion and adhesion. Dielectric Constant 8.4: Poly(Vinylidene Fluoride) JHD 2008 Resin with a dielectric constant of 8.4 is used in electronic device encapsulation, where it enhances signal insulation and device reliability. |
| Packing | Poly(Vinylidene Fluoride) JHD 2008 Resin is packaged in a sealed 25 kg kraft paper bag with inner PE liner for protection. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Poly(Vinylidene Fluoride) JHD 2008 Resin: typically 16–18 metric tons packed in 25kg bags. |
| Shipping | Poly(Vinylidene Fluoride) JHD 2008 Resin is shipped in moisture-proof, sealed packaging, typically in 25 kg bags or drums. The product should be stored and transported in a cool, dry place, away from direct sunlight and incompatible materials. Ensure compliance with local and international regulations for transporting polymer resins. |
| Storage | Poly(Vinylidene Fluoride) JHD 2008 Resin should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible substances such as strong acids or bases. Keep the container tightly sealed to prevent moisture absorption and contamination. Store at ambient temperature and handle in accordance with standard chemical safety practices. |
| Shelf Life | Poly(Vinylidene Fluoride) JHD 2008 Resin has a shelf life of 2 years when stored in a cool, dry environment. |
Competitive Poly(Vinylidene Fluoride) JHD 2008 Resin prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
For more than fifteen years in the specialty polymers field, we have watched industries demand more out of every resin. Poly(Vinylidene Fluoride) JHD 2008 Resin stands out as a reliable choice when the application calls for a tried-and-true material that doesn’t quit—whether that’s in lithium battery separators, chemical piping, or high-performance coatings. As direct manufacturers, we shape every batch with strict process management and continuous quality monitoring, making sure the material responds the same way in the machine shop as it does in the field.
Many manufacturers offer PVDF variants, but few are built like JHD 2008. Every granule starts with high-purity monomer, processed to avoid fish-eye defects or yellowing common in lower-end offerings. Combining our deep polymerization experience with modern instrumentation, we hit target viscosity window reliably, run after run. This matters when customers demand resin that melts with clean flow in extrusion and keeps the finished product free of blemishes. Batches get tested for molecular weight distribution—without that control, melt strength drops, and sheets or pipes lose impact resistance. By cutting out process shortcuts others sometimes allow to save costs, we see fewer rejections and less downtime on our partners’ molding lines.
Customers in chemical transport and pharma processing know that just any PVDF material won’t last long. JHD 2008 resists acids, bases, and even mixed organic solvents. Every polymer chain in this grade locks out permeation because of our strict monomer ratios—no shortcuts in the recipe. During plant audits, clients often cut open pipes after years of service to find interiors untouched by HCl or chlorinated solvents. We pay attention to the fine points: consistent crystallinity, correct additivation, and absence of internal stress ensures end products don’t show early fatigue or swelling, even on prolonged exposure to aggressive chemistries.
The market for lithium battery components moves fast, but it punishes inconsistency. For separator film production, resin particle purity, flowability, and the ability to resist thermal shrinkage determine yield and battery stability. JHD 2008 offers controlled particle size and narrow melt index range, supporting both wet and dry processes. Lines run outright smoother, and operators don’t have to fight coil breakage or unexpected upline failures. Ask our partners in cell manufacturing—inconsistent resin means costly process interruptions and product recalls. Our process reduces ionic impurities and metal content, protecting the delicate chemistry inside next-generation batteries. During batch approval, separators made with JHD 2008 consistently withstand calendar stretching, thermal cycling, and electrolyte soaking—qualities essential to supporting the era of electric mobility.
In outdoor construction, a fade or chalked-out finish isn’t just cosmetic—it signals breakdown and a shorter replacement cycle. JHD 2008 resin forms the matrix for durable, weather-strong coatings. The fluorine-rich backbone blocks UV, resisting yellowing and surface erosion that often appears after a year or two under sun and rain. Roof panels, curtain walls, and aluminum profiles painted with dispersions crafted from our resin stay true in color and retain gloss even in aggressive climates near coasts or deserts. We tailor our resin structure by balancing the right crystal phase proportions during polymerization. This is how we support customers demanding coatings that look new, year after year, even after repeated cleaning cycles and exposure to industrial fallout.
Field repair, joining, or embedding of pipework and film components comes down to whether a PVDF resin is forgiving during heat processing. JHD 2008 consistently exhibits good weldability with uniform melt flow at standard conditions. Fabricators tell us that their weld lines come out clean, fusion is easy to achieve, and joints don’t warp or develop stress marks after cooldown. In membrane and filter production, our resin’s predictable solubility in common solvents streamlines the formation of porous supports—making workflows simpler in labs and at scale. Compared to blends or off-grade materials, users see reduced scrap and stronger bonds. The difference traces directly to our fine-tuned molecular design and our habit of monitoring full chain length throughout polymerization rather than only at the end.
Not all PVDF is a fit for every challenge. Many customers have shared frustration with imported or non-certified powders that shed particulates, discolor after sterilization, or carry persistently high ionic content. Those problems trace back to raw material traceability and run-to-run variability—a fact we address with vertical integration from monomer sourcing through to packaging. JHD 2008 consistently outperforms commodity PVDF grades in dielectric strength, tensile retention, and low ionic impurity, supporting a broad class of electronics and bioprocessing applications. In cables and connectors, our resin’s high breakdown voltage and insulation stability provide assurance that final assemblies won’t fail under elevated temperature or high-frequency load. Installers and engineers also appreciate the resin’s smooth pellet morphology, which translates into clog-free feeding and smooth, even extrudate.
Compliance in high-value industries means more than a spec sheet. Every JHD 2008 batch ships with full analytical records, from purity screening to physical and chemical analysis. Bio-processing firms count on us for predictable migration and extractable profiles. Laboratoriums can check our batch numbers against our retained samples—every delivered kilogram has a direct history, including inspection records and production timing. We keep meticulous manufacturing logs, so a customer can trace a final product back to the day and reactor vessel it was polymerized in. PVC alternatives sometimes gain popularity for short-term cost savings, but our end-users notice the difference in the way our PVDF stands up to repeated SIP and CIP cycles, as well as its lower tendency for unwanted leaching in high-purity fluid handling.
Environmental standards have consistently tightened, with stricter requirements not just for finished plastics but also production waste and lifecycle impacts. Our lines recycle process wastewater and minimize vented organic emissions through condensing and scrubbing. Unlike some factories that blend off-spec resin back into commercial sales, we separate and process scrap for non-critical downstream use only, guarding both reputation and your finished product integrity. In plant audits, partners see our inline detection of volatile content and fines, which slashes reject rates and brings total consumption numbers closer to planned output. End-of-life recycling discussions often mention PVDF's robust structure; products made with JHD 2008 can often be mechanically reprocessed or safely incinerated, limiting environmental impact. Our team stays close to regulatory trends and shares updates with customers ahead of upcoming REACH and RoHS revisions. We remain committed to open disclosure of our production methods and invest in continuous upgrades to lower energy draw per ton, so customers can meet both technical and ecological targets with confidence.
Process changeovers can be costly, especially when switching between different PVDF products. Our technical staff and field engineers consult regularly with downstream processors, sharing hands-on knowledge gained during in-house extrusions and batch polymerization runs. We test JHD 2008 on a variety of equipment—from compact screw extruders to automated multilayer film lines—long before it reaches a customer’s dock. These trials matter; they reveal how the resin responds to different draw ratios, die temperatures, and solvent mixes. By building feedback loops between our lab and plant partners, we cut down on startup losses and shorten qualification cycles. Our approach has saved customers weeks of downtime over the years by eliminating guesswork and providing real data from relevant conditions.
New applications keep emerging, especially as industries push for more rugged batteries and lighter but stronger construction materials. We’ve worked hand in hand with membrane developers to adjust polymer branching and chain end groups, giving each application its best mix of strength and filter performance. Customers in electronics and cable manufacturing have requested more precise sizing and surface treatment, and we’ve responded with smaller pellet options and anti-static grading. These aren’t off-the-shelf tweaks—they come from listening to shop-floor needs and experimental results, then closing the loop quickly in tandem with our R&D crew. Thanks to direct lines of communication, we deploy process upgrades rapidly so our resin keeps pace with evolving expectations—whether that means higher flame resistance, lower smoke generation, or improved processability in demanding new fiber applications.
End users notice the difference across sectors: a chemical processor finds fewer clogs and cleaner output; a battery separator plant sees better edge stability; an extrusion plant faces less downtime from dust and inconsistent pellet flows. Our direct engagement means we don’t just ship tonnage—we stay involved through technical support, troubleshooting, and up-to-date documentation as uses shift or standards change. Trust forms from this relationship. As more industries move towards asset longevity and total cost reduction, the consistency, reliability, and deep technical foundation behind JHD 2008 have proven their value. People who rely on finished components—from medical equipment operators to construction engineers—see fewer unexpected maintenance events, fewer product recalls, and steadier long-term performance as a direct result.
Manufacturing PVDF at this level comes with practical hurdles. Resin price volatility and upstream monomer supply demand careful planning and strategic reserves, especially as global demand surges with electric vehicle expansion. Mounting requirements for product purity force us to invest continuously in new filtration, purification, and inline monitoring at stages that older facilities sometimes overlook. In hot, humid climates or markets with uncertain logistics, our planning teams forecast both shipping and demand surges, ensuring our partners never face surprise shortages or late orders that can derail monthly output. We have learned to be pragmatic; staying flexible, keeping skilled workers cross-trained, and never dropping standards in scaling up. Every expansion brings lessons—a new reactor brings heat profile quirks, a new client uncovers subtle process incompatibilities. By documenting each issue, sharing those insights with downstream partners, and investing in thorough trialing, we’ve kept both teams and customers ahead of the curve.
With regulatory and performance demands ratcheting up, only resins with real-world improvement built in stay relevant year over year. It’s not just sales talk: reports from installed base have shown that ongoing process improvement—both in resin itself and in end-product application—yields longer system uptime and reduced mean time to failure. Factory managers have shaved weeks off maintenance cycles and cut spare parts costs after switching to pipes, films, and membranes produced from our JHD 2008 grade. These operational wins get shared back with our process team, prompting another round of testing and tightening. It’s an iterative relationship, and it only works when the source manufacturer shares accountability for the outcome, not just the shipment.
Every client application delivers new data and a few surprises. In the EV sector, separator film producers have begun requesting specific rheological tweaks to push battery safety further. At the same time, the next wave of construction standards demands higher gloss retention and less environmental drift, which keeps our chemists busy refining monomer feed and additive selection. For us, sticking close to the customer remains the only way to stay competitive. By synchronizing development cycles between our polymerization labs and client processing teams, we keep our resin specifications not just compliant with regulations but tuned to serve real production needs as they evolve. Each incremental batch improvement gets tested in both our pilot lines and partner shops, iterating towards the best all-around PVDF for tomorrow’s applications—whether that ends up in smarter grids, safer batteries, or more resilient building envelopes.
Poly(Vinylidene Fluoride) JHD 2008 Resin goes far beyond what a basic spec sheet or a generic supplier can offer. Its track record in field deployments, lab scrutiny, and continuous process improvement stands as evidence. By investing in strict process discipline, responsive customer support, and ongoing technical advance, we help partners build products and infrastructure that last longer and perform more reliably. The market decides what matters, and time and again, users have chosen JHD 2008 for its measurable return on investment—whether that’s in lower maintenance, fewer recalls, or a smoother production workflow. We remain committed to working directly with every partner, sharing knowledge openly, and adapting quickly as industries invent and demand newer, better materials. The lessons learned on the shop floor keep shaping our product, keeping it aligned with both today’s demands and tomorrow’s possibilities.
