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HS Code |
477177 |
| Product Name | Poly(Vinylidene Fluoride) JHS 3010 Resin |
| Chemical Formula | (C2H2F2)n |
| Appearance | White granular or powder |
| Melt Flow Rate | 10-20 g/10min (230°C, 5kg) |
| Density | 1.77-1.79 g/cm³ |
| Melting Point | 165-175°C |
| Tensile Strength | ≥ 40 MPa |
| Elongation At Break | ≥ 20% |
| Dielectric Constant | 8-10 (at 1kHz) |
| Water Absorption | < 0.04% |
| Thermal Decomposition Temperature | ≥ 350°C |
| Solubility | Insoluble in water |
As an accredited Poly(Vinylidene Fluoride) JHS 3010 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 3010 Resin with 99.5% purity is used in lithium-ion battery separators, where it ensures high ionic conductivity and chemical resistance. Molecular Weight 530,000 g/mol: Poly(Vinylidene Fluoride) JHS 3010 Resin of 530,000 g/mol molecular weight is used in membrane manufacturing, where it delivers superior mechanical strength and elongation at break. Melting Point 170°C: Poly(Vinylidene Fluoride) JHS 3010 Resin with a 170°C melting point is used in wire and cable insulation, where it provides reliable thermal stability and insulation performance. Particle Size D50 25μm: Poly(Vinylidene Fluoride) JHS 3010 Resin at 25μm D50 particle size is used in powder coating applications, where it enables smooth surface finish and optimal covering power. Thermal Stability 120°C: Poly(Vinylidene Fluoride) JHS 3010 Resin with thermal stability up to 120°C is used in chemical processing linings, where it maintains integrity and resists chemical degradation. Viscosity Grade High: Poly(Vinylidene Fluoride) JHS 3010 Resin with high viscosity grade is used in adhesives and bonding agents, where it enhances adhesion strength and cohesive properties. Crystallinity 59%: Poly(Vinylidene Fluoride) JHS 3010 Resin with 59% crystallinity is used in piezoelectric sensor fabrication, where it improves electromechanical transduction efficiency. Dielectric Constant 8.5: Poly(Vinylidene Fluoride) JHS 3010 Resin with dielectric constant of 8.5 is used in capacitor films, where it enables high energy storage density and efficient charge retention. Water Absorption <0.04%: Poly(Vinylidene Fluoride) JHS 3010 Resin with less than 0.04% water absorption is used in outdoor protective coatings, where it provides excellent moisture durability. UV Resistance High: Poly(Vinylidene Fluoride) JHS 3010 Resin with high UV resistance is used in architectural panels, where it ensures long-term color retention and weatherability. |
| Packing | Poly(Vinylidene Fluoride) JHS 3010 Resin is packaged in 25 kg moisture-proof, multi-layered paper bags with inner polyethylene liners. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Poly(Vinylidene Fluoride) JHS 3010 Resin: 14 metric tons, packed in 25kg bags on pallets. |
| Shipping | Poly(Vinylidene Fluoride) JHS 3010 Resin is typically shipped in sealed, moisture-resistant bags or drums to prevent contamination. Packages are clearly labeled with product and hazard information. Shipping complies with relevant chemical transport regulations, ensuring protection from physical damage, excessive heat, and direct sunlight during transit and storage. |
| Storage | Poly(Vinylidene Fluoride) JHS 3010 Resin should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and strong oxidizing agents. Keep the container tightly closed to prevent contamination and moisture absorption. Avoid exposure to excessive temperatures and store away from combustible materials. Ensure proper labeling and compliance with safety regulations during storage. |
| Shelf Life | Poly(Vinylidene Fluoride) JHS 3010 Resin typically has a shelf life of 24 months if stored in unopened, dry, and cool conditions. |
Competitive Poly(Vinylidene Fluoride) JHS 3010 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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Decades spent in polymer synthesis teach us that every product batch tells its own story. Poly(Vinylidene Fluoride) JHS 3010 Resin stands out because of what it achieves for engineers and fabricators who demand reliable, consistent materials. We've watched as advanced manufacturing’s appetite for robust polymers has grown, and our JHS 3010 answers that call with tight molecular control and high purity. Our technicians pour their focus into every phase, so we never cut corners on temperature or moisture parameters during polymerization. That decision costs us extra hours, but the results speak for themselves through clear, uniform granules that don’t clog hoppers or feeders.
Whether a customer is cutting film for lithium-ion batteries or extruding pipe for chemical process plants, the end-use highlights one fact: resin consistency matters. Poly(Vinylidene Fluoride) isn’t just a buzzword in insulated wire or pharmaceutical filters. It’s the backbone of safety, reliability, and long service life in some of the industry’s harshest applications. JHS 3010 doesn’t just imitate the standards set by imported grades; it exceeds many of them—especially in electrical insulation stability and mechanical strength.
Every operator on our production line knows the struggles of uneven resin melt, the frustration of pinholes, or the cost of chemical leaching during end-use. Our JHS 3010 line has been engineered with these problems in mind, drawing on field feedback and hours spent trouble-shooting customer installations. The result: a resin grade built for applications ranging from thin-film membranes to cable jacketing, with high aging resistance and strong performance in aggressive chemical environments.
We designed JHS 3010 for a specific melting flow rate and particle geometry, to streamline handling across various processing equipment. This grade flows predictably during extrusion and injection molding, reducing trial-and-error at the equipment. In trials, downstream teams reported fewer shutdowns caused by bridging or packing inconsistencies. That reliability means fewer surprises across production shifts, which directly impacts project schedules and plant costs. An engineer handling corrosive media, for example, wants reassurance that every meter of pipe or filter element will last—our formulation and process discipline back that up.
Poly(Vinylidene Fluoride) JHS 3010 offers remarkable chemical resistance. We consistently test each lot against strong acids, bases, and organic solvents. These aren’t lab-only validations. We’ve walked the factory floors of clients running caustic agents or solvent-based slurries and witnessed how regular resins degrade—ours don’t. High dielectric strength and low moisture absorption mean critical components retain their insulating properties, even in humid or submerged environments. JHS 3010 resists creep and cracking under long-term mechanical stress, which means fewer failures in load-bearing fittings or high-pressure valves.
Thermal stability is another hallmark. JHS 3010 maintains performance across a wide temperature range, ensuring seals, gaskets, and protective coatings in heat exchangers don’t soften or lose their structure. These properties come from deliberate polymer chain length and strict control over molecular weight during synthesis—not by chance but by repeatable, traceable process steps. We invest in modern reactors, monitored with real-time analytics, giving us insight into each batch’s properties before it leaves our site.
Many customers come to us aiming to push their equipment or designs into new territories. PVDF JHS 3010 opens the door to innovative applications—fuel cell membranes with high proton conductivity, robust water treatment membranes, critical containment linings for semiconductor plants. Our resin’s fine-tuned particle size, free from oversize agglomerates or fines, helps avoid downtime for manufacturers transitioning from one product geometry to another. It’s not just about compatibility; it’s about giving teams the flexibility to respond rapidly to changes in market demand or process constraints.
We routinely consult with application engineers who share stories from the floor: extruders block because of unpredictable rheology or finished films suffer pinholes due to uneven shrinkage. These pain points drive our R&D choices. The decisions we’ve made—refining particle drying, automating final sieving, investing in multi-stage filtration—are all rooted in these real-world needs. In return, our resin moves smoothly through feeding systems, melts cleanly, and delivers robust performance in the finished product.
Consistency underpins every useful property of JHS 3010. Materials research shows that even slight batch variations can lead to out-of-spec installations, short product lifespans, or costly recalls. We know firsthand the risks operators face if their resin supplies shift in performance between shipments. Our in-house analytics lab runs comparative tests between each lot and retains samples for future traceability, backing our claims of predictable melt flow, stable mechanical strength, and uniform chemical inertness. This isn’t theory—it’s the day-to-day reality our plant teams and our customers share.
Leveraging process controls that continuously record polymerization data, our operators identify trends before they become issues. If a parameter drifts out of range, production halts until precision is restored. This attention to detail makes sure that turbine blade coatings, pump linings, or medical tubing come out the same every time. For global customers assembling high-reliability electronics or producing batches for critical medical devices, that consistency means everything.
JHS 3010 separates itself from other PVDF materials not just through brand claims but through verifiable field performance. Some resin grades, intended for lower-cost commodity uses, offer weaker chemical resistance, greater moisture uptake, and less controlled rheology. We have measured higher levels of ionic impurities in imported alternatives, affecting electronics and semiconductor customers by introducing risk of circuit corrosion or lowered dielectric properties.
In our own facility, careful monitoring and strict source verification of raw ingredients help contain contamination, and we back each drum with data on ion content. Clients operating high-purity processes—especially in semiconductor and pharmaceutical industries—see product lifetime improvements and lower maintenance intervals using JHS 3010 compared to standard grades. We don’t settle for the minimum spec. If even a single lot falls outside our purity envelope, the drums don’t leave the warehouse. That standard comes from decades spent seeing what really causes failures out in the field.
Our relationship with large-scale lithium-ion battery makers highlights the real impact of resin selection. Battery cell manufacturers have documented process yield increases and defect reduction by moving to JHS 3010, thanks to better melt processability and lower contamination risks. In our own trials, separator films cast from JHS 3010 display improved puncture strength without the unpredictability seen with generic PVDF grades.
Pipe manufacturers leveraging our resin report fewer extrusion line stoppages. Reliable melt flow and controlled particle distribution mean less unplanned downtime and smoother transitions between product runs. This ultimately supports a leaner production model, with resources focused on innovation and quality improvement, not fixing breakdowns caused by raw material deficiencies.
No successful chemical plant runs without regard for environmental protection and safe workplace practice. JHS 3010 is synthesized in facilities audited to globally recognized environmental and occupational health standards. Our air and water monitoring extends to every part of the PVDF process, and we’ve re-engineered cooling and waste handling steps based on lessons learned from older generations of polymerization. By minimizing residual solvents and cutting energy waste in drying operations, we reduce our environmental impact and offer a cleaner resin from drum to end-use.
Worker safety receives the attention it deserves. Staff training covers every phase, from monomer handling to packaging. We’ve eliminated legacy process steps that once exposed workers to unnecessary hazards. Plant managers constantly review near-miss data, investing in automated controls and real-time monitoring to make sure the risk stays low. Customers deploying JHS 3010 see this commitment reflected not just in certificates and reports, but in the physical excellence of the resin itself.
Over years of developing and refining PVDF, we’ve learned that open communication supports shared progress. Our technical teams are never far from the line, and we field calls from processors troubleshooting extrusion, compounders optimizing mechanical blends, lab researchers chasing tighter porosity or thermal targets. This two-way dialogue shapes our roadmap: every customer problem brings an innovation opportunity.
JHS 3010 may market itself for batteries, piping, films, or coatings, but we never lose sight of its critical role in those systems—acting as a barrier, a shield, a conduit. We put equal weight on test data and anecdotal feedback. Every property report comes with context, drawn from production teams and maintenance managers on both sides of the shipping dock. This is why our PVDF keeps earning customer trust, cycle after cycle, challenge after challenge.
Polymer users know market turbulence isn’t confined to oil price swings or regulatory changes. Recent years saw raw material shortages, shipping delays, and fluctuating demand, pressuring plants to adapt or risk standing still. Through investment in local feedstock partnerships and diversified transportation channels, our production never faltered. Customers received their JHS 3010 on time, in the right quantities, through well-managed inventory buffers.
We resisted the temptation to dilute quality or relax batch testing protocols even as lead times tightened. Every plant manager on staff has stories burned in memory—of what happens when suppliers overpromise and underdeliver. By focusing on supply chain stability as rigorously as product excellence, we earn our reputation not just with technical specs, but by consistently meeting delivery and quality targets. Reliability means showing up every time, resin after resin.
No polymer leaves our facility unsupported. From pilot-scale runs to full-scale production, we offer collaboration—sending tech teams for line commissioning, troubleshooting, or process optimization. Customers have invited us to view bottlenecks first-hand, gaining insight that generic vendors simply cannot provide. Field service has shown us which process steps benefit most from small resin tweaks: a surface treatment to improve wettability, or a packaging change to reduce static build-up. Every on-site visit makes our resin a better fit for real-world needs.
Test labs may point to melt index and tensile strength curves, but on-site crews value fast resin set-up, minimal dust, and mechanical reliability. Our technical teams record and act on that feedback. In the rare case where trouble emerges—a material behaves differently on new equipment, or a blend misses its target property—rapid field support keeps the line running without protracted downtime or finger pointing. This commitment to partnership drives many of our resin improvements year after year.
We continue investing in new equipment and advanced analytical tools to support evolving customer needs. Materials engineers assessing JHS 3010 for next-generation electrolytes, smart coatings, or high-performance membranes approach us for deeper collaboration. We fund polymer research into expanded property ranges: higher weight grades for structural applications, finer powders for additive manufacturing, and new surface chemistries for medical and filtration markets.
Each new product iteration draws from feedback loops between suppliers, our plant teams, and end-use engineers. We track trends closely, from regulatory restrictions on harmful additives to the growing importance of recyclability and low-emission processing. JHS 3010’s consistent cleanliness and purity give us a foundation for meeting tomorrow’s sustainability and safety targets.
PVDF JHS 3010’s real-world performance stems from decades of polymer manufacturing experience, practical feedback, and a commitment to rigorous standards. Engineers, product managers, and process operators trust JHS 3010 not because of a brand statement, but because it delivers clear value where it counts: fewer line stoppages, better corrosion protection, higher product yields, and field-proven safety. The true test for a polymer comes on the factory floor and in finished installations. JHS 3010 continues to earn its way into critical applications, not just for what’s on the datasheet, but from the daily performance seen by teams who rely on high quality without compromise.
