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HS Code |
233178 |
| Product Name | Impranil CQ DL 1878 |
| Chemical Type | Waterborne Polyurethane Dispersion |
| Appearance | Milky white liquid |
| Solids Content | Approximately 40% |
| Ph Value | 7.0 - 9.0 |
| Ionic Character | Anionic |
| Viscosity | Less than 500 mPa·s at 23°C |
| Particle Size | Around 0.1 - 0.2 µm |
| Density | Approximately 1.05 g/cm³ at 20°C |
| Film Appearance | Clear and glossy |
| Main Application | Textile coating and finishing |
| Storage Temperature | 5 - 40°C |
| Freezing Stability | Sensitive to frost |
| Shelf Life | 12 months in unopened containers |
As an accredited Impranil CQ DL 1878 Waterborne Polyurethane Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Impranil CQ DL 1878 Waterborne Polyurethane Resin is supplied in 200 kg blue steel drums, featuring secure, leak-proof closures and labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Impranil CQ DL 1878 is typically packed in 200 kg drums, 80 drums per 20′ FCL, totaling 16 MT. |
| Shipping | Impranil CQ DL 1878 Waterborne Polyurethane Resin is shipped in properly sealed, labeled containers—typically drums or IBCs—as a non-dangerous good. It must be protected from freezing, direct sunlight, and extreme temperatures. Transportation follows standard safety and environmental regulations to ensure product integrity during transit. |
| Storage | **Impranil CQ DL 1878 Waterborne Polyurethane Resin** should be stored in tightly sealed, original containers at temperatures between 5°C and 25°C (41°F–77°F), protected from direct sunlight, frost, and contamination. Avoid freezing. Ensure the storage area is well-ventilated and away from sources of ignition or incompatible materials. Use only clean, stainless-steel or plastic equipment to prevent contamination. |
| Shelf Life | Impranil CQ DL 1878 has a shelf life of 12 months from production date if stored in tightly sealed containers at 5–30°C. |
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Solids Content: Impranil CQ DL 1878 Waterborne Polyurethane Resin with 40% solids content is used in high-performance textile coatings, where it provides superior abrasion resistance. Viscosity: Impranil CQ DL 1878 Waterborne Polyurethane Resin at 500 mPa·s viscosity is used in flexible synthetic leather finishing, where excellent film formation is achieved. Particle Size: Impranil CQ DL 1878 Waterborne Polyurethane Resin with a particle size below 150 nm is used in fabric impregnation, where penetration and uniformity are improved. Elongation at Break: Impranil CQ DL 1878 Waterborne Polyurethane Resin exhibiting 600% elongation at break is used in automotive interior applications, where enhanced elasticity is required. pH Value: Impranil CQ DL 1878 Waterborne Polyurethane Resin at pH 7.5 is used in protective clothing coatings, where process stability and consistency are maintained. Tensile Strength: Impranil CQ DL 1878 Waterborne Polyurethane Resin with tensile strength above 30 MPa is used in synthetic sports flooring, where structural durability is essential. Glass Transition Temperature: Impranil CQ DL 1878 Waterborne Polyurethane Resin with a glass transition temperature of -18°C is used in soft-touch furniture coatings, where flexibility at low temperatures is necessary. Storage Stability: Impranil CQ DL 1878 Waterborne Polyurethane Resin with 12-month storage stability is used in industrial coating formulations, where extended shelf life is beneficial. Matting Degree: Impranil CQ DL 1878 Waterborne Polyurethane Resin at a low matting degree is used in footwear finishing, where a uniform matte appearance is achieved. Adhesion Strength: Impranil CQ DL 1878 Waterborne Polyurethane Resin with adhesion strength above 5 N/25 mm is used in bonding multi-layer textiles, where peel resistance is critical. |
Competitive Impranil CQ DL 1878 Waterborne Polyurethane 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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Experience in polyurethane manufacturing teaches a few things straight away: real performance comes from attention to raw materials, careful handling of every batch, and deep respect for what the end user faces in their own processing line. Our Impranil CQ DL 1878 waterborne polyurethane resin answers today’s push for safer, cleaner coating solutions—without asking users to give up the physical properties that finishers have long expected from solventborne systems.
Impranil CQ DL 1878 comes straight from our long-running polyurethane production expertise. Factories, coaters, and finishing lines look for products that flow, dry, and hold up across various substrates. This dispersion stands out thanks to its high molecular weight foundation and especially fine particle size, resulting from precisely controlled emulsification in our reactors. Over decades, we have tweaked the process to strike a balance—maintaining film strength and appearance without overcomplicating formulation work.
CQ DL 1878 lends itself to flexible and semi-rigid finishes. Its film stretches cleanly, resists yellowing, and holds up both in folding and general abrasion. End users find it does particularly well on synthetic leather, automotive interiors, and technical textiles. In our production, we’ve tested and monitored all manner of batch and continuous processing, diving into reactions under both high- and low-shear regimes, so the final product resists settling and maintains stability in storage as well as in end-use.
Every formulation story starts with raw authenticity. Many resin systems make big claims about “green” chemistry but sidestep real production bottlenecks down the line. We’ve watched coaters fight clogged filters, uneven films, and poor chemical resistance when switching to waterborne choices. Impranil CQ DL 1878 tackles these issues head-on because we engineer and refine polymers by running trial after trial at line scale, not just in a flask.
The polymer lays down clear, tough films after ambient drying and crosslinking. Water dispersibility gives a low-VOC route, traducing trouble in compliance provinces and within factories trying to keep employee safety at the forefront. Across countless pilot runs and customer collaborations, workers find it handles without excessive foaming or film defects, because we use defoamer-compatible chemistry and screen every batch to weed out tails and outliers.
We’ve run Impranil CQ DL 1878 through hundreds of benchmarks. We routinely check tensile properties, hydrolysis resistance, color retention, adhesion to PVC and textiles, and resistance to plasticizer migration. Our staff sees first-hand that coatings built on this resin stand up under humid aging and repeated flexing. Factories rely on these characteristics to reduce warranty claims and rework downstream. Years of field feedback confirm that CQ DL 1878 holds up better in outdoor and high-humidity uses than many economy options, especially under aggressive aging conditions.
Batch-to-batch consistency comes from deliberate, logic-driven batch records and batch characterization. Every drum supplied meets rigorous internal performance markers—film elasticity between controlled limits, viscosity in a narrow window, and clear resistance to microbial spoilage. No one wants surprises that slow production lines or force late adjustments.
Waterborne polyurethanes carry a reputation for being “too finicky” in some shops. We address this directly at the production level. Impranil CQ DL 1878 disperses quickly and allows formulators to adjust viscosity or hardness, depending on the needs of customers from apparel finishers to auto interior manufacturers. Process lines can pump, filter, and spray the dispersion with standard equipment. In our own lab trials, we check for high-speed mixer effects, filterability, and compatibility with general industry auxiliaries like thickening agents, pigments, and softeners.
This resin accepts both hand and machine application—roller, knife, and even spray setups benefit from a low-stickiness profile that shrugs off dust pickup. Every major production batch undergoes compatibility testing with textile auxiliaries and pigments to reduce downtime for our downstream users. Off-notes and haze remain minimal, as we hold a tight lid on impurities during polymerization and always test for these with each lot.
Decades in the field show how easily waterborne polyurethane resins get lumped together. What actually sets CQ DL 1878 apart starts with our raw chemistry and manufacturing experience. Using fine-tuned emulsion processes, we maintain high molecular weight structures alongside excellent flow characteristics. Some “eco” systems need heavy cosolvents to form smooth films, but this resin forms a tough film straight from the vessel with low solvent demand.
Competitive products often skip on hydrolysis resistance, resulting in stickiness, cracking, or yellowing after some weathering. CQ DL 1878 resists these pitfalls because our reactors run under nitrogen, detailed pH control, and consistent monomer ratios without shortcuts. Years spent solving customer formulation problems come to bear in how the end product holds up, especially when top-quality flexibility and long-term durability are real differentiators, not just sales language.
Another thing people notice: CQ DL 1878 crosslinks well with polyisocyanate or aziridine crosslinkers, giving users flexibility with their end-use requirements. For high-flex or high-chemical-resistance needs (and we know plenty of industries demand this for outdoor gear and automotive surfaces), users select the right crosslinker dose—without muddying clarity or color.
In our years manufacturing emulsions, we’ve observed the most demanding end-users: sportswear makers, automotive interior suppliers, fashion houses, and contract coaters. CQ DL 1878 finds homes in these demanding applications due to its ability to endure flex, fade, and everyday wear. The resin builds finishes that move with the substrate, whether laminated on nonwovens, foamed into top layers, or used as the adhesive layer in three-layer constructions.
In PVC and PU-coated imitation leathers, consistent handling and reliable flexibility are non-negotiable for long production runs. Finished articles resist tack and delamination, even when sent to humid climates. Multiple shoe and upholstery makers have reported reductions in rework and batch rejects since switching to our formulation. Technical textiles for luggage, tents, and outerwear also benefit from the non-yellowing and high wash-fastness features rooted in the CQ DL 1878 backbone. Direct feedback from workshops notes fewer pinholes and improved cut-edge stability.
Regulations continue tightening around worker exposure and emissions. Impranil CQ DL 1878 addresses strict workplace safety standards by relying on water as its primary carrier. We regularly measure residual monomer levels and screen for substances of very high concern. Our operators know the importance of keeping levels below regulated thresholds, since each coater, finisher, and laminator is trusting their own teams' health to the manufacturer’s controls.
Being a real producer, not a trader, we see the transition from solventborne to waterborne as both a regulatory necessity and a competitive advantage. Traditional solvent carriers carry hazards—odors, explosion risks, and workplace costs pile up, not to mention local regulatory troubles. Our waterborne solution drops these risks, lowers insurance overheads, and lessens complaints from plant personnel, without turning the coating process into an unpredictable experiment.
Supply chain hiccups, raw material fluctuations, and environmental pressures challenge every batch. We’ve rebuilt our process over the years to adapt to worldwide supply interruptions, sometimes tweaking input streams, sometimes installing redundant reactors or more automated batch control. This direct experience assures stable output quality and rapid troubleshooting, giving our downstream users as little disruption as possible during their busy production cycles.
Our QC lab runs stability and performance tests on every batch, not as a checkbox, but to flag even minor shifts before the product ever leaves the warehouse. We’ve learned almost all performance complaints in the market trace back to gaps in manufacturing vigilance. Keeping a strict set of batch records, raw material certificates, and discipline at every manufacturing step, we ensure that Impranil CQ DL 1878 that reaches the end user still performs at its peak, batch after batch, year after year.
One size rarely fits all. As both manufacturer and technical resource, we regularly work with R&D teams at customer sites, tweaking the way CQ DL 1878 is used to hit their specific finishing, coating, or lamination requirements. This might mean advising on crosslinker systems, rheology modifiers, or blending with other waterborne dispersions. Often, we pull samples straight from production and run custom pilot coatings, coloring, or softening adjustments right in our own factories before the customer runs a full batch on their line.
Nobody knows the inside of their plants like users themselves, but our long-running hands-on involvement means we can quickly provide help when a line stops or a batch throws up something unexpected. That’s where manufacturing strength and deep technical knowledge intersect—helping customers fix challenges before they escalate, rather than just selling a generic drum and moving on.
Trust grows from proven performance—and hard numbers showing better flexibility, durability, and appearance retention lay the groundwork. Beyond certificates and data sheets, real trust comes from support when the line isn’t running as expected or a property target shifts last minute.
Being the manufacturer, we see every step from raw material receipt through to final packaging. We commit to training our production staff, keeping environmental impacts minimized, and ensuring each batch leaves at consistently high standards. Because our own name stands behind the product, CQ DL 1878 delivers integrity batch after batch.
Building a product like Impranil CQ DL 1878 doesn’t happen overnight or from off-the-shelf components. Each formulation improvement, dispersion cycle, and QC method reflects real production experience, built up batch by batch, year by year. Customers who demand waterborne performance without shifting their own process or accepting weaker films find a true partner in a manufacturer willing to invest in their success, not just move product down a chain.
Our promise goes beyond the resin in the drum. We invest in on-site trials, feedback loops with end users, and flexible manufacturing schedules to support both established and emerging industry demands. Our reputation for reliability, technical skill, and straightforward support stands on the foundation of how we make and support CQ DL 1878, every single batch.
Customers come to us when off-the-shelf solutions fall short—requesting toughness, clarity, and ease of use in waterborne polyurethane. Decades in polymerization and waterborne handling have shaped Impranil CQ DL 1878 into a resin that combines the mechanical strength and clarity finishers count on, with the regulatory and workplace safety profile required by modern supply chains.
Manufacturers, coaters, and finishers can rely on our commitment to product consistency, technical honesty, and open support. Each ton of Impranil CQ DL 1878 reflects a blend of scientific care, practical industry feedback, and a resolve to help customers meet tomorrow’s challenges with confidence. This isn’t just chemical manufacturing—it’s industrial partnership, and it comes backed by decades of experience and hands-on dedication.
