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All Right Reserved
|
HS Code |
554665 |
| Material Type | Recycled Polypropylene |
| Grade | PH10 |
| Color | Natural |
| Form | Pellet |
| Melt Flow Index | 10 g/10min (230°C/2.16kg) |
| Density | 0.90 g/cm³ |
| Tensile Strength | 25 MPa |
| Elongation At Break | 15% |
| Flexural Modulus | 1200 MPa |
| Impact Strength | 4 kJ/m² |
| Moisture Absorption | 0.01% |
| Processing Temperature | 180-220°C |
| Filler Content | None |
| Ash Content | 0.3% |
| Application | Injection Molding |
As an accredited Recycled Polypropylene PH10 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Recycled Polypropylene PH10 is securely packaged in a 25 kg woven plastic bag with clear labeling, ensuring product integrity and traceability. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Recycled Polypropylene PH10: Typically loads 22-25 metric tons, packed in bags or jumbo bags, securely palletized. |
| Shipping | **Shipping Description:** Recycled Polypropylene PH10 is shipped in clean, durable, moisture-resistant polypropylene bags or bulk containers. Ensure loads are secured and protected from contamination or weather. Store and transport under dry, cool conditions to maintain material integrity. Compliant with standard safety and transportation regulations for non-hazardous plastic resins. |
| Storage | **Recycled Polypropylene PH10** should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of ignition. The material must be kept in tightly sealed, clearly labeled containers to prevent contamination. Avoid exposure to moisture, extreme temperatures, and incompatible materials such as strong oxidizing agents. Follow all local regulations for safe handling and storage of plastics. |
| Shelf Life | Recycled Polypropylene PH10 typically has a shelf life of 12 months when stored in cool, dry conditions, away from sunlight. |
Competitive Recycled Polypropylene PH10 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365186327 or mail to sales3@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@liwei-chem.com
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Every manufacturer who has ever stood on a noisy plant floor or hovered over a sorting belt knows the difference between regrind and reimagined resin. Polypropylene has stood as a workhorse polymer across countless industries, but the enormous pressure on our sector to reduce plastic waste is changing the ground rules. Recycled Polypropylene PH10 grew out of these real pressures. We developed, trialed, and refined it to help industrial users meet environmental goals without trading away the qualities that matter in finished goods. With PH10, you’re not choosing compromise—you’re embracing a new kind of reliability.
There is no lasting solution to single-use plastic waste if we don’t take recycling seriously. PH10 isn’t just a drop-in answer—it’s a response built on years of feedback from warehouse managers, injection molders, automotive suppliers, and packaging buyers. Many facilities have struggled with recycled plastics that have unpredictable melt flows, color drifts, or inconsistent impact strength. We’ve learned, through relentless batch sampling and machine-side adjustments, that not all recycled resins behave the same. What sets PH10 apart comes from how we select, clean, and process the feedstock. If you have stood in front of a failed QC test, you’ll understand the relief in seeing those off-spec shipments fall away as repeatable resin quality takes its place.
Let’s get specific. Our Recycled Polypropylene PH10 offers a balanced melt flow that supports steady injection and extrusion. As a manufacturer, we know what kind of headaches arise when there’s an unplanned spike or drop in MFI during production. We’ve dialed in PH10’s properties through rigorous in-line testing and close control over our source material. Our batches do not swing wildly from one delivery to the next. For model PH10, typical melt flows land right where converters expect for rigid and flexible product lines, so downstream processors can focus on production instead of troubleshooting material instability.
Working directly with PH10 means you bypass much of the guesswork associated with recycled resins. Many in the field have voiced frustration about off-smells, contamination, or even visible debris in recycled materials. We chased out these issues from our process through upgraded filtration and double-stage extrusion rather than relying on hope or external processors. Color stability remains another critical point for the industry, and we address it both by batch chromatography and by rejecting outlier feedstock. After years of hands-on production, we’ve learned there are no shortcuts that still meet the expectations of automotive panels, storage bins, or household product applications.
Recycled Polypropylene PH10 has already found its place in a broad range of end-use segments: automotive plastics, industrial packaging, appliance housings, and commercial textiles all benefit from PH10’s blend of mechanical strength and process flexibility. Most frequently, PH10 flows into injection-molded buckets, trays, containers, and building profiles. We see consistent demand from companies looking to move large volumes of sturdy, high-value products without introducing the brittleness or discoloration common in lesser post-consumer grades. Unlike conventional blends, PH10 delivers the impact resistance needed for robust products that see rough handling throughout their lifespan.
For decades, product developers have reached for prime polypropylene, knowing exactly how it handles under heat, pressure, and load. But the world is different now. If you need to hit recycled content targets or drive down scope 3 emissions, moving to PH10 can be part of that solution. In our own lines, we’ve been surprised at how efficiently PH10 molds and extrudes compared to virgin resin. The main question becomes not whether recycled polypropylene can “work,” but whether it will perform without surprises. Through side-by-side production runs, and extensive impact, tensile, and flexural tests, PH10 has shown dependable performance—close enough to prime resin that end-users rarely notice a difference in material handling or appearance.
Many recycled polypropylenes on the market emerge from sources with varying contamination, sometimes mixing in streams that don’t belong. That lowers trust and raises costs. In developing PH10, our focus kept returning to feedstock control—over 90% of input comes directly from post-consumer packaging sorted through mechanical and chemical cleaning. It's not just technical; it’s the result of years of working with collection facilities, setting tolerances, and rejecting incoming material that doesn’t pass muster before it ever hits the grinding line. Many other grades fail where PH10 passes: odor reduction, color stability—even weld line strength under repeated loads.
Chemists in labs can detail differences in molecular weight or color measures, but plant managers care about how material runs in the real world. PH10 runs hot and fast through most standard injection molding machines, with little to no need for additional drying or blending. Process engineers get less downtime, fewer machine cleanouts, and better part finish. Throughout our own production experience, we have avoided problems with die drool, gassing, or melt flow irregularities—even during longer cycle runs common in industrial packaging lines. By building PH10 to these specs, we did not chase theoretical lab results, but prioritized those benefits that translate directly to fewer line stoppages and more dependable output.
Switching to recycled polypropylene isn’t just about corporate responsibility statements—it’s about real challenges. Customers with persistent landfill waste streams need answers that meet local regulations and global brand commitments. We’ve worked alongside packaging, automotive, and construction material companies who test not only PH10’s technical profile, but its price-performance ratio and traceability. Each ton of PH10 produced diverts plastic away from landfill and back into the cycle, and we document our impact for each batch. We made this choice not out of pressure but conviction. We have seen audits become smoother, certifications become easier, and new business land because a supply chain finally proved it could close the loop.
Engineering recycled resins is not a straight line. Early efforts saw more than a few failed moulds, cracked parts, and perplexing rejection rates. Many of us who remember older “gray” regrind, riddled with odor and marked by a speckled appearance, use those failures as motivation to do better. For years, recycled plastic was seen as a lower class—barely tolerated in black trays or flowerpots, never considered for products demanding lasting strength or a clean finish. Developing PH10 meant betting that customers wanted more than the bare minimum. Rejections from auto part makers, negative returns from QA labs, and frustrated feedback from line supervisors drove us to invest money and time in purer feedstock, real-time monitoring, and precise compounding. These moves now pay off across thousands of tons and dozens of customer lines.
Raw material availability underpins every recycled product. In lean years, collection drops; in years of high demand, buyers scramble for every possible feedstock. Our experience points to the importance of building strong relationships up and down the supply chain. PH10's reliability comes directly from knowing precisely where materials come from and how they're handled before they reach our sorting lines. We’ve spent years cultivating trusted sources, training new sorting teams, and screening every supplier at multiple points. Not every recycled grade gets this level of scrutiny. When the supply chain comes under stress—labor shortages, transportation delays, shifts in household packaging usage—working with partners instead of scrambling behind brokers lets us keep supplying product on schedule.
Modern manufacturers no longer get a pass on plastic waste by simply using recycled labels. End users now ask pointed questions about chemical footprint, process emissions, and even potential microplastic leaching. We take these concerns seriously. Our advanced washing stages, high-temperature extruders, and in-line filtration don’t just improve PH10 for the sake of specs—they reduce unwanted additives, legacy chemical residues, and potential food contact hazards. In plant audits, this translates into less downtime, easier regulatory checks, and often, a smoother path to global certification marks that matter for export and domestic trade.
As a producer, we know exact material performance matters as much as sustainability messaging. That is why we keep lines running 24 hours, maintain in-house labs for real-time testing, and hire teams who understand both polymers and production schedules. PH10 is not an experiment; it's a culmination of years making do with what sometimes felt like the leftovers of the plastics world. Our best solutions emerge from rolling up our sleeves when something goes wrong—machine clogs, trace impurities, shipment damages—and not walking away until the resin flows clean, stable, and strong.
No recycled product survives without direct feedback from those running machines hour after hour. PH10’s formulation reflects shifts, tests, and tweaks based on what production supervisors, plant engineers, and QC managers tell us. Sometimes it’s about improving color from lot to lot, sometimes a tougher impact result for parts in cold storage. Customers drive meaningful improvements. Over time, the pile of rejected resins shrinks, and the market for recycled polypropylene—once a niche—expands. We keep lines open for those calls and visits, understanding that every question and criticism brings us closer to a resin product that holds up under real-world demands.
Plenty of myths about recycled plastics linger, especially around strength, durability, or unpredictability. PH10 confronts these doubts directly, not through marketing but through demonstrated performance. Years back, packaging buyers expected recycled plastic to be only “good enough for the bottom shelf.” By pairing advanced extrusion with careful ingredient selection, we turned PH10 into a material companies rely on for structural products that handle rough transit and repeated use. Our routine tensile and impact data stand up in client audits, and finished parts keep their shape, finish, and utility across intended lifespans.
Legislation increasingly demands recycled content in finished goods. We have seen regional requirements change annual targets upward, while customer audits move from paper tracking to real-time traceability. Our experience working with international clients shows that recycled polypropylene must now pass not only commercial hurdles but increasingly technical and compliance thresholds. Developing PH10 with documentation, origin tracing, and performance guarantees keeps our clients moving ahead of both local and export regulations. These lessons show up in our finished resin and in the way we talk directly—line manager to line manager—about solving tomorrow’s compliance and sustainability challenges today.
Jumping from virgin to recycled grades rarely happens overnight. Our best client relationships involve phased trials, on-site visits, and constant data review to ease transitions. We encourage clients to start with blended trials, testing PH10 alongside legacy materials. Then, we compare outputs together—shrinking, flow times, color match, and impact performance. By walking this path side by side, we discover together where PH10 makes the strongest business sense. More often than not, it becomes clear that this is not a risky switch but a smart, incremental process backed by our support teams, our live data, and our own hands-on experience.
Years ago, committing to recycled content was about cost. Now, it’s about brand reputation, resource accountability, and staying ahead of new rules. PH10 sits at the core of our push toward a change in how manufacturers think about materials. We are exploring additive improvements, upcycled content from industrial scrap, and even tighter controls on food-contact and medical-grade products. Still, every innovation rests on the solid base of clean, safe, tough resin that can be used by companies who wish to operate more sustainably—without losing the productivity and reliability they have come to expect. This journey continues because industry partners keep demanding more, and we keep responding.
Recycled Polypropylene PH10 represents the evolution of what recycled plastics can be. For those who have grown up around extruders, bagging machines, and warehouse conveyors, PH10 offers a step-change—not just in material science but in circular economy practice. We keep learning, improving, and listening. Each step forward for PH10 comes from a stubborn refusal to accept half-measures in recycled resin. As demand for responsible plastic solutions grows, so does our resolve to deliver resin you can count on for strength, cost efficiency, and environmental benefit. PH10 has earned its place in the production lineup, not only because of where it comes from, but above all, because of what it can do—batch after batch.
