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HS Code |
531294 |
| Product Name | Impranil HS-130 Waterborne Polyurethane Resin |
| Appearance | Milky white liquid |
| Solid Content | Approx. 30% |
| Ph Value | 6.5 – 8.5 |
| Ionic Character | Anionic |
| Viscosity 25c | ≤ 500 mPa·s |
| Density 20c | Approx. 1.05 g/cm³ |
| Minimum Film Forming Temperature | Approx. 0°C |
| Glass Transition Temperature | Approx. -35°C |
| Emulsifier Type | Anionic/non-ionic |
| Freeze Thaw Stability | Stable after one cycle |
| Compatibility | Good with most commonly used auxiliaries |
| Film Clarity | Clear and transparent when dry |
| Recommended Storage Temperature | 5–30°C |
As an accredited Impranil HS-130 Waterborne Polyurethane Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Impranil HS-130 Waterborne Polyurethane Resin is packaged in 200 kg blue HDPE drums, featuring sealed lids and clear product labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Impranil HS-130 packed in 200 kg drums, 80 drums per container, total net weight 16,000 kg. |
| Shipping | Impranil HS-130 Waterborne Polyurethane Resin is shipped in securely sealed, corrosion-resistant containers, typically drums or IBC totes. Ensure upright transport and protection from freezing, heat, and direct sunlight. Handle with care, following all safety data sheet (SDS) guidelines for hazardous materials. Transportation complies with relevant local and international chemical shipping regulations. |
| Storage | Impranil HS-130 Waterborne Polyurethane Resin should be stored in tightly sealed original containers at temperatures between 5°C and 30°C. Avoid exposure to direct sunlight, frost, and extreme heat. Keep away from incompatible substances and ensure proper ventilation in the storage area. Stir well before use and protect from contamination to maintain product quality and stability. |
| Shelf Life | Impranil HS-130 Waterborne Polyurethane Resin typically has a shelf life of 12 months when stored in unopened, original containers at recommended conditions. |
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Solids Content: Impranil HS-130 Waterborne Polyurethane Resin with a solids content of 35% is used in synthetic leather coatings, where it provides excellent film formation and uniform surface coverage. Viscosity: Impranil HS-130 Waterborne Polyurethane Resin with a viscosity of 1000 mPa·s is used in textile finishing, where it enhances fabric flexibility and smooth hand feel. Particle Size: Impranil HS-130 Waterborne Polyurethane Resin with an average particle size of 0.1 μm is used in surface coatings, where it ensures a high-gloss, defect-free finish. pH Value: Impranil HS-130 Waterborne Polyurethane Resin with a pH value of 8 is used in wallpaper coatings, where it enables compatibility with a range of dyes and additives. Elongation at Break: Impranil HS-130 Waterborne Polyurethane Resin with an elongation at break of 350% is used in adhesive formulations, where it provides superior flexibility and durability. Tensile Strength: Impranil HS-130 Waterborne Polyurethane Resin with a tensile strength of 20 MPa is used in shoe upper coatings, where it delivers enhanced mechanical performance and wear resistance. Stability Temperature: Impranil HS-130 Waterborne Polyurethane Resin with stability up to 50°C is used in automotive interior coatings, where it maintains integrity under elevated temperatures. Molecular Weight: Impranil HS-130 Waterborne Polyurethane Resin with a molecular weight of 50,000 g/mol is used in printing inks, where it offers excellent binding properties and print clarity. Matting Agent Compatibility: Impranil HS-130 Waterborne Polyurethane Resin with high matting agent compatibility is used in matte varnishes, where it ensures consistent low-gloss appearance. Residual Monomer Content: Impranil HS-130 Waterborne Polyurethane Resin with low residual monomer content below 0.1% is used in children’s toys coatings, where it contributes to enhanced safety and compliance with regulations. |
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Over the years, we’ve poured our efforts into developing products that not only fit evolving industry needs but set fresh benchmarks for performance and safety. Impranil HS-130 Waterborne Polyurethane Resin emerged from this drive to raise standards, not only in processing but in the day-to-day handling by our customers. With this resin, the focus remains clear: high-quality dispersion, easy film formation, and stable storage.
Every batch we manufacture comes with hands-on attention—because we know this material ends up in demanding coatings and formulations used across footwear, textiles, synthetic leathers, and more. Delivering resin that behaves predictably and supports a reliable process for our partners is what keeps us motivated to refine each detail, not just follow standard recipes.
Years spent talking shop-floor challenges with R&D staff and production managers taught us that few priorities matter more than consistent performance in shifting climate and time. Impranil HS-130 didn’t get its composition by guesswork: we saw how standard dispersions could struggle with block resistance, clarity, and surface finish. Humidity swings in a plant? Hot and cold cycles in transport? Pigments and additives crowding the formulation? We tailored this resin to handle exactly those realities.
The shift from solvent-based to waterborne resins hasn’t been a fashionable trend for us—it’s a practical response to factory air requirements and worker comfort. The difference gets real fast on a production line. Less odor, less exposure risk, simpler cleaning. Impranil HS-130 comes as a clear, milky dispersion, reducing the kind of solvent headaches that used to slow down maintenance schedules and compliance departments. You won’t find added plasticizers or coalescent solvents sneaking into the formula either, so every gram supports safer air. Emissions are reduced at the origin: our own plant-level control methods keep volatile content as low as possible.
Impranil HS-130 isn’t a catch-all name pulled from a catalog—it’s a fine-tuned result of polyurethane chemistry designed to meet requirements for film-forming, toughness, and weather stability, all in a single, waterborne product. Our formulation usually provides a solid content in the 35-40% range with particle sizes engineered for low settling and easy redispersal. Each batch runs through filtration to keep grit and coagulum to a minimum, so operators don’t have to babysit mixers or strain filters on busy days.
The pH balance tends to settle between 6 and 8, purposely adjusted to protect delicate equipment and surfaces from corrosion or staining. Viscosity presents as easy-pouring and tank-mixable, keeping pumps and pipes running without clogging or separation. Every operator who struggled with batch-to-batch surprises knows why we stay hands-on with these checks, and why each drum ships with transparency about what’s inside. If a process needs tighter particle control or viscosity shifts due to climate, we talk through adjustments right at the source.
From our vantage in the lab and on the shop floor, the most telling test comes once the resin leaves storage and hits the line, especially for users aiming for flexible yet tough films. Impranil HS-130 serves widely in synthetic leather finishing, in both direct and transfer coating steps. The resin lays down smoothly on fabric backers or release papers, picking up pigments and matting agents without predictable issues such as floating or mottling. The final film dries with a balance between elasticity and cut resistance that keeps hybrid coatings within spec for flex and abrasion. Textiles and technical fabrics benefit from its natural stretch and grip, helping finished articles pass wrinkle and set tests demanded by footwear and apparel brands.
We’ve seen many formulations end up with poor wetting or migration of plasticizers, especially on mixed-fiber bases. The waterborne design of Impranil HS-130 works against these defects. Pigment and additive compatibility extends beyond synthetic leathers: the resin helps in specialty ink formulations for screen printing and digital textile applications. In applications demanding thin, breathable layers—medical film stock, mattress ticking, breathable sports apparel—the micro-porous finish delivers good water resistance without trapping vapor or causing flash-off blisters.
Switching to Impranil HS-130 often means users can skip extra anti-block or anti-stick additives, especially where coatings need to stack during storage or transport. For laminated or transfer coatings, the resin acts as a reliable anchor—bonding strongly without the risk of migration that makes re-coating unpredictable. Customers have shown us samples months after manufacture, with both color and flexibility holding steady.
Listening to feedback, we know that not all polyurethane dispersions behave the same on production lines. The Impranil HS-130 series stands out for its balance between hardness and flexibility—tough enough for wear surfaces but soft enough to avoid cracking on curved or flexed substrates. Many users run side-by-side trials: conventional waterborne PU resins might show surface stickiness in humid storage or tend to yellow under UV or high heat. By dialing in polymer backbone chemistry and using carefully chosen emulsifiers, Impranil HS-130 resists these common pitfalls.
Another lesson learned from our factory partners concerns stability on the shelf and in-mix tanks. Competing resins, especially those built for bargain markets, have shown sediment, skinning, or bacterial spoilage even under mild storage. Strict temperature and biocide control in our process extends shelf life—customers have stopped reporting waste due to early thickening or microbial contamination. Our approach to batch consistency hasn’t come at the expense of user flexibility; modifications for specific application methods (spraying, knife coating, padding) adjust quickly without affecting the core performance.
Long gone are the days when many waterborne PUs relied on high levels of surfactants or stabilizers that foamed up during mixing. We watched what happened when downstream operations had to fight with bubble marks or poor pigment grind-in. Impranil HS-130 avoids these reactions, even at higher shears, so production moves faster and final results impress brand auditors, not just lab techs. In color-critical applications—outdoor gear, upholstery, personal electronics—formulators tell us that our resin holds dye and pigment well, with less risk of yellow shadings or surface blushing.
Years ago, most polyurethane users viewed waterborne resins as a novelty or compromise—a regulatory burden rather than a technical solution. We saw the writing on the wall early, so we began moving away from solvents not just for paperwork but because our teams breathed the same air as everyone else in the plant. Impranil HS-130 reflects that hard-earned shift in culture. Customers today care more than ever about what goes into their materials. End clients ask about VOC numbers, emissions, compliance with international standards, and microplastic shedding. We don’t aim to just hit the lowest threshold—our batch records and internal audits prove that we consistently count every gram of volatile and keep it as low as practical, batch by batch.
Down the value chain, this approach means easier certification under standards such as OEKO-TEX or REACH. We’ve worked on-site with partners facing last-minute audits and customer visits, sharing documentation with transparency. The same improvements in lower odor and gentler handling matter to small businesses too, not just multinationals—nobody wants a surprise during inspection or handover.
Manufacturing polyurethane dispersions is a craft as much as a science, especially in controlling particle size distribution, avoiding coagulation, and keeping up with steadily tightening environmental expectations. Internal teams have spent years stationing extra QC at the points most vulnerable to contamination or inconsistency. Many competing products rely on heavy antifoam additives or last-minute stabilizers that leave residues in application, often turning up as surface haze or tack. We focused on refining our reactor sequence and filtration steps, so our resin goes out clean and stable, not burdened with band-aid fixes.
Our laboratories have had to stay nimble. Some customers encounter new pigments or additives and need fast support—compatibility tests, application advice, or even just troubleshooting batch changes that crop up due to local water chemistry. We run simulated applications in our own pilot facilities to get ahead of those curveballs. Some issues pop up in the field before they ever do inside a lab, and we’ve learned not to dismiss operator input or line-side notes. If Impranil HS-130 starts showing new quirks due to raw material variances or seasonal swings, we adjust formula and process in real time, not just for the next quarter’s roll-out.
Beyond our gates, supply chain logistics matter too. Waterborne polyurethane resins present unique challenges in packing, transit, and storage, as they can face temperature shocks or slow truck delays. Our drums and containers run extra lining and inspections to block contamination—and when cold snaps or heat waves strike, we cycle more QC on arrivals and warehouse checks. Predicting these variables has become a key part of making sure the product works as intended after any shipping journey.
The most successful upgrades to Impranil HS-130 have come from honest feedback—what worked, what didn’t, and what surprised an operator on a busy shift. Years ago, a partner ran a batch of coated fabric that failed to bond on a new substrate. Our technical team didn’t pass off the blame. We recreated the failure, traced it to an interaction with a new pigment system, and tuned dispersion to solve it. Chasing down these details keeps us ahead. A formula that looks great on paper needs to deliver under pressure, full stop.
We’ve built application recipes to share with partners, and held in-person trials to walk through new techniques. These sessions often lead to minor tweaks with major payoffs, such as adding water at precise stages for improved levelling, or using specific wetting agents for challenging surfaces. The way Impranil HS-130 responds to tinting pastes, thickeners, and crosslinkers is shaped as much by these shared experiences as by our lab numbers.
Polyurethane chemistry continues to evolve, as regulations put pressure on certain raw materials, and as industries move toward circularity and better recyclability. Impranil HS-130 isn’t static, and neither are our upstream suppliers or quality targets. Raw material selection now runs through sustainability and traceability filters. Customers expect honest reporting about recycled content—so if there’s bio-based material or post-consumer polyurethane in a batch, we don’t overstate the case or hide limitations. Our focus remains on keeping the core performance unchanged, so green upgrades still deliver as robustly as conventional ones.
As markets broaden, specialty users experiment with Impranil HS-130 in unexpected ways—from coatings for automotive trim to high-durability digital prints, and flexible electronics. Our research and technical service teams stay curious about where the resin meets new demands. This includes monitoring for nano-scale migration and long-term aging under hard weathering, as well as keeping up with emerging regulatory frameworks on microplastics and hazardous disclosures.
One lesson stands out: you can’t fake quality in waterborne polyurethane resin. Our team invests in regular plant training, safety reviews, and equipment upgrades. Resin quality doesn’t start in the lab or end on a spreadsheet—it roots in process oversight on the plant floor, in the hands that blend, filter, and bottle each batch. Even as automation improves, line-side skill and judgment keep minor problems from snowballing into major product recalls or wasted runs. Behind every drum of Impranil HS-130 stands an experienced workforce that takes pride in each outgoing batch.
New hires train for months to master the judgment needed to spot off-odor, color drift, or small clots—details that escape most spec sheets. The jump between “good enough” and world-class often sits in those caught-on-the-fly corrections. End users—many of whom have run plants themselves—appreciate having a partner who owns the whole production cycle. Direct accountability means we resolve setbacks quickly, with less finger pointing and faster problem solving for all parties.
Today, competitive edges grow thinner and end-user expectations skyrocket. Product safety, chemical transparency, and environmental compliance now factor directly into purchase decisions and long-term partnerships. We’ve worked inside the industry long enough to know that packaging, labeling, and traceability can’t be an afterthought. Each drum of Impranil HS-130 ships with batch-level data, because we want our customers to know exactly what’s arriving—and to access those records should any audits or process checks arise.
We’ve watched the polyurethane market shift from a price game to a performance contest. Technical partners run resin bake-offs, side-by-side trials against global benchmarks. Impranil HS-130 has held its own not by chasing the lowest number but by sustaining film quality, storage stability, worker safety, and environmental ambition in every run. That didn’t happen by chasing marketing trends, but by fixing problems one issue at a time and listening to the real people behind every order.
Impranil HS-130 does not land as a “raw” commodity needing endless tweaking. Production partners see value right away in paint shops and coating lines where operators can count on consistent spray patterns and spreading rates. Less downtime from filter clogs and settling in tanks gives teams more uptime, cutting costs quietly where they matter: fewer line cleanouts, lower pigment hold-up, and stable drying rates mean smoother scheduling. End articles—synthetic leathers, high-durability textiles, foils, and protective laminates—consistently pass standardized abrasion, flex, and hydrolysis tests, even after long storage and tough transport.
This level of consistency fills real gaps in supply for markets seeing rising custom requirements, whether for footwear that meets brand test houses, or automotive suppliers who need batches that ship compliance records and pass fragrance-free audits. We have years of paperwork behind every technical claim—a culture of evidence, not just assertion.
Building a product like Impranil HS-130 isn’t a once-and-done exercise. It takes experience, patience, and the flexibility to adapt on the fly to changing demands. The pride our team takes in this resin comes from knowing that our partners use it to solve their own hard problems. Each batch isn’t just another drum on the shelf, but a tool handed to people who depend on us for their own success. Whether tackling a new finishing project, passing a regulatory puzzle, or just looking for a quieter, safer plant floor, our commitment remains: keep refining, keep listening, deliver the kind of quality that real-world partners rely on every day.
