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HS Code |
724155 |
| Chemical Name | Poly(Vinylidene Fluoride) |
| Product Code | JHS 3015 |
| Appearance | White powder or granules |
| Molecular Weight | Approximately 300,000 g/mol |
| Density | 1.76 - 1.78 g/cm³ |
| Melting Point | 170 - 175°C |
| Crystallinity | Around 50% |
| Tensile Strength | 40 - 50 MPa |
| Elongation At Break | 20 - 40% |
| Dielectric Constant | 8 - 13 (at 1 kHz) |
| Water Absorption | < 0.04% |
| Thermal Decomposition | > 350°C |
As an accredited Poly(Vinylidene Fluoride) JHS 3015 Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99.5%: Poly(Vinylidene Fluoride) JHS 3015 Resin with 99.5% purity is used in lithium-ion battery binders, where it ensures high electrochemical stability and extended cycle life. Molecular weight 530,000 g/mol: Poly(Vinylidene Fluoride) JHS 3015 Resin with a molecular weight of 530,000 g/mol is used in membranes for water treatment, where it delivers excellent mechanical strength and enhanced durability. Melting point 170°C: Poly(Vinylidene Fluoride) JHS 3015 Resin with a melting point of 170°C is used in wire and cable insulation, where it enables superior thermal resistance and safe long-term performance. Particle size D50 25 μm: Poly(Vinylidene Fluoride) JHS 3015 Resin with a D50 particle size of 25 μm is used in powder coatings, where it achieves uniform surface coverage and optimal weather resistance. Viscosity grade 1,600 mPa·s: Poly(Vinylidene Fluoride) JHS 3015 Resin with a viscosity grade of 1,600 mPa·s is used in architectural coatings, where it provides excellent film formation and chemical resistance. Thermal stability 150°C: Poly(Vinylidene Fluoride) JHS 3015 Resin with thermal stability up to 150°C is used in photovoltaic backsheet films, where it offers reliable protection against heat-induced degradation. Crystallinity 60%: Poly(Vinylidene Fluoride) JHS 3015 Resin with 60% crystallinity is used in piezoelectric sensors, where it produces strong and consistent electrical signal output. Dielectric constant 8.4: Poly(Vinylidene Fluoride) JHS 3015 Resin with a dielectric constant of 8.4 is used in capacitor films, where it ensures high energy storage capacity and efficient performance. Elongation at break 300%: Poly(Vinylidene Fluoride) JHS 3015 Resin with 300% elongation at break is used in flexible electronics substrates, where it provides outstanding flexibility and crack resistance. Water absorption <0.04%: Poly(Vinylidene Fluoride) JHS 3015 Resin with water absorption below 0.04% is used in chemical processing linings, where it secures long-term integrity against moisture intrusion. |
| Packing | The packaging is a sturdy 25 kg white polyethylene bag printed with "Poly(Vinylidene Fluoride) JHS 3015 Resin" and manufacturer details. |
| Container Loading (20′ FCL) | 20′ FCL can load approximately 16 metric tons of Poly(Vinylidene Fluoride) JHS 3015 Resin, typically packed in 25kg bags. |
| Shipping | Poly(Vinylidene Fluoride) JHS 3015 Resin is shipped in sealed, moisture-proof packaging such as polyethylene-lined bags or drums. Each container is clearly labeled with product identification and handling instructions. Store and transport in a cool, dry environment, away from direct sunlight and incompatible materials. Observe all relevant safety and regulatory guidelines during shipping. |
| Storage | Poly(Vinylidene Fluoride) JHS 3015 Resin should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, moisture, and sources of ignition. Keep the resin in tightly sealed, original containers to prevent contamination. Avoid exposure to extreme temperatures and chemicals that may react with or degrade the material. Ensure compliant storage according to relevant safety and regulatory guidelines. |
| Shelf Life | Poly(Vinylidene Fluoride) JHS 3015 resin typically has a shelf life of 12 months when stored in cool, dry conditions. |
Competitive Poly(Vinylidene Fluoride) JHS 3015 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.
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Tel: +8615651039172
Email: sales9@bouling-chem.com
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Working in chemical production for years, you learn which materials pull their weight and which ones just add noise to the catalog. Poly(Vinylidene Fluoride), or PVDF, is one of those plastics that people come back to when others give up under tough conditions. Among the grades we’ve manufactured, JHS 3015 keeps getting the nod from engineers who don’t have time for setbacks.
We developed JHS 3015 for users seeking reliable performance in applications that punish lesser materials. It’s made in our own lines, so every sack comes straight from the reactors and through quality control we've managed ourselves. Our team has learned that for applications demanding chemical resistance, thermal stability, and mechanical strength, small differences in polymerization and post-processing result in big differences on your end product line. JHS 3015 follows a formulation and process that grew from feedback given directly by operators and technical staff in the field, not just the R&D department.
JHS 3015 usually finds its way into coatings, wires, lithium battery separators, housings, and filtration membranes. It doesn't warp or degrade in the presence of acids, bases, halogens, or hydrocarbons that wreck conventional resins. Our customers in electronics manufacturing and battery assembly keep returning for JHS 3015 because even at high voltage or hot processing, it doesn’t throw surprises—no sudden shrinkage, cracking, or chemical leaching.
For battery producers, PVDF acts as a binder and separator support. JHS 3015’s consistent flow behavior and purity give downstream users fewer sticky batches, fewer residue buildups on extrusion and casting equipment, and more predictable porosity in membranes. In cable and wire covering, electricians and tool operators have told us that insulation using JHS 3015 takes heat and flex cycles over years without peeling away or going brittle the way generic PVDF sometimes does.
Membrane manufacturers care a lot about pore size control and solvent compatibility. JHS 3015 handles broad solvent types during casting, and we’ve refined molecular weight distribution to reduce agglomerate formation. That means tighter microstructure in finished films and fewer scrap rolls per lot. This attribute comes from real production feedback, not just tweaking numbers on lab tests.
JHS 3015 grade PVDF delivers notable chemical stability across a pH range few engineering plastics can touch. Workers at plating shops, chemical transport equipment makers, and fluid handling components know how rare it is to find a material that doesn't corrode, pit, or embrittle from sulfuric acid, chlorine, or strong solvents. We’ve done our own tests under continuous exposure, and the product resists breakdown even after extended cycles. Beyond chemical resistance, JHS 3015 keeps its mechanical toughness at temperatures reaching 150°C. This property makes it fit for hot pipe linings, process tanks, and valve seats, saving operators the cost and hassle of frequent replacement.
Flow rate and melt processing matter to compounders, so we keep our melt flow index variance tight between lots. If you’re feeding automations and extruders, you can count on the resin feeding, melting, and filling dies without sudden surges or drools that mean downtime. Waste is money burned, and we know keeping that predictable is just as important as headline specs. In our hands, JHS 3015 granulates with practically no fines and very low water uptake, reducing drying time and sending less material to vacuum pumps and filters.
For coatings and solvent casting, JHS 3015 dissolves in common media including NMP, DMF, and acetone, leaving behind clear, tough films without blushing or inhomogeneity. We analyze each batch to confirm residual monomer content and low metals, especially for advanced battery applications where ionic contamination can kill performance downstream.
There’s no shortage of PVDF on the market, but the gap between top-grade resins and ordinary product widens quickly when end uses ramp up in difficulty. JHS 3015 came out of ongoing communications between factory staff and real users. While other grades may focus on price or volume, we prioritize traceable quality and stable performance across production runs. This shows up as consistent particle size (for minimal dusting and bridging in feed hoppers), narrow molecular weight distribution, and strict controls on impurity levels.
Some resins show up shiny in brochures but gum up extruders or produce streaky films when you scale up. We monitor the entire process, from raw monomers to finished granules, including devolatilization and screening steps that remove fines and unreacted fragments. Customers running 24/7 notice fewer film breaks and stop orders for re-blending when switching to JHS 3015. This saves unplanned production halts and headaches. Feedback from our partners in cable extrusion, for example, led us to adjust drying regime on our resin to deliver lower gel content, eliminating telltale “fish eyes” on finished jackets.
Some PVDF products bulk out material with internal lubricants or fillers to hit a price point, but these change downstream performance and can trigger unexpected failures. JHS 3015 uses no slip agents or problematic additives, so it bonds uniformly and forms tough, transparent coatings. Users can run color or functional additive concentrates through with minimal adjustment. Years ago, we switched to continuous process monitoring on key reactor conditions, so users don’t get lot-to-lot drift in product behavior.
We manage our product from monomer purification through drying and compounding, not just repackaging from other sources. This control means we catch any batch variations before shipping, protecting downstream performance for users making sensitive membranes or battery binders. We don't hand off granulation or blending to third parties, minimizing cross-contamination risk and giving us a full view of process stability.
Before shipping, every bulk lot runs through spectroscopic verification for composition, along with real melt index checks and direct contamination scans. Some industries have zero margin for error—battery and semi makers, for example—so this final check becomes crucial. Over the years, we’ve tracked feedback not just from purchasing but from technical staff who live with these results day to day. If something goes wrong, they come straight to us, not a middleman without insight into the original batch conditions.
Long-term partnerships with suppliers matter more than chasing the lowest price tag for us. We’ve worked with the same monomer and additive producers for years, so supply chain consistency stays high, and users don’t have to gamble on shifts in raw material quality. Engineers and operators come to trust a polymer after seeing years of steady parts, coatings, and films—not after a single sample bag performs in the lab.
A user switching from average PVDF to JHS 3015 might notice less cleaning downtime on casting lines, tighter tolerance in film thickness, and more reliable solvent behavior during membrane production. Process engineers in battery separators talk about smoother slurry processing and cleaner slitting operations. Maintenance teams appreciate that welds and linings last longer without developing stress cracks or pinholes when exposed to strong oxidizing chemicals.
Environmental health and safety officers benefit from lower emission during melt processing, thanks to careful removal of residuals and strict controls on secondary reactions. This isn’t just a plus for workplace air quality—it also cuts risk of regulatory headaches down the line. On top of this, our packaging minimizes dust and static buildup, keeping handling risks lower from warehouse to processing floor.
Research groups scaling up from lab work report that JHS 3015 bridges the gap between small batch consistency and industrial bulk. Analytical feedback flows straight into our process improvement, and future batches reflect hands-on feedback instead of theoretical assumptions. This responsiveness gives users confidence when locking in formulations for new products or production expansions.
Today, users in batteries, filtration, and chemical processing face tougher requirements than ever. Producers have to meet not only technical specs but also regulatory benchmarks on purity and traceability. JHS 3015 holds up under increasingly tight limits on extractables and leachables—something users in pharma filtration and critical process water appreciate. We track and document the resin’s journey from raw material to delivered drum, so proof of conformance doesn’t get lost between links in the chain.
We also support downstream processors with technical guidance, from melt profile optimization to solution blending. Our in-house technicians actually work in the pilot lab, running same polymer grades the way customers do, not just reading from handbooks. So, if a problem comes up in lamination or film extrusion, chances are high we’ve seen it, solved it, and retained the fix for the next production run.
With energy storage markets and green technology ramping up, feeding battery lines or water purification units with high-purity, reliable resin is becoming a mission-critical task. Failures in these sectors are costly and public, making prevention more important than post-launch fixes. Trust in material quality shields both producers and users from cascading shutdowns and warranty headaches.
Manufacturing polymer resin isn’t a job for people who think problems disappear once the hopper is full. Every batch reflects choices made on reactor settings, raw material sourcing, granulation, and drying methods. By managing every link ourselves, we keep an unbroken record and direct view, so you’re never left guessing about what’s in your resin or how it’ll behave on the process line.
Experience tells us most users want their resin to arrive ready to run: minimal pre-drying, controlled particle size, low dust, and precise melt behavior, with the confidence each bag matches the last. JHS 3015 isn’t just a product of polymerization—it’s shaped by the lessons we carry from customer lines and our own production floor. By keeping every step under our own roof, we ensure the consistency that industrial users need to keep complex operations running safely, smoothly, and profitably.
If you’re spec’ing resin for established lines or trialing new processes and need material that keeps your process moving, JHS 3015 offers a dependable solution built around hard-won experience, not marketing claims.
