|
HS Code |
379299 |
| Product Name | Impranil CQ DLS/1 |
| Type | Waterborne Polyurethane Resin |
| Chemical Base | Anionic aliphatic polyester polyurethane dispersion |
| Appearance | Milky, bluish-white liquid |
| Solids Content | Approximately 40% |
| Ph Value | 6.5–8.5 |
| Density | About 1.05 g/cm³ at 20°C |
| Viscosity | Less than 500 mPa·s at 23°C |
| Particle Size | Around 0.1–0.2 µm |
| Film Forming Temperature | Minimum 5°C |
| Ionic Character | Anionic |
| Storage Temperature | 5–25°C |
| Freeze Thaw Stability | 1 cycle |
| Main Application | Textile and synthetic leather coatings |
| Voc Content | Low/Zero |
As an accredited Impranil CQ DLS/1 Waterborne Polyurethane Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Impranil CQ DLS/1 Waterborne Polyurethane Resin is typically packaged in 25 kg blue plastic drums with secure, tamper-evident lids. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Typically loads 16,000–18,000 kg of Impranil CQ DLS/1 in 160–180 HDPE drums, safely palletized. |
| Shipping | **Shipping Description for Impranil CQ DLS/1 Waterborne Polyurethane Resin:** Impranil CQ DLS/1 is shipped in sealed, labeled containers suitable for aqueous dispersions. Store and transport upright in cool, dry conditions. Protect from freezing and direct sunlight. Ensure compliance with local regulations. Not classified as hazardous for transport under standard shipping regulations (non-DG). Avoid contamination with incompatible substances. |
| Storage | Impranil CQ DLS/1 Waterborne Polyurethane Resin should be stored in tightly sealed, original containers at temperatures between 5°C and 25°C, away from direct sunlight, frost, and sources of heat. Ensure good ventilation and avoid contamination. Protect from freezing, as this may compromise product quality. Store separately from incompatible materials and always consult the Safety Data Sheet for specific storage guidance. |
| Shelf Life | Impranil CQ DLS/1 has a shelf life of 12 months when stored in tightly sealed, original containers at recommended temperatures. |
|
Viscosity grade: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a viscosity of 1500–2500 mPa·s is used in textile coating processes, where it provides excellent film formation and smooth application. Solid content: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a solid content of 40% is used in synthetic leather finishing, where it enhances abrasion resistance and durability. Particle size: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a particle size of approximately 0.1 µm is used in waterborne coating formulations, where it ensures homogenous dispersion and clear surface appearance. pH value: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a pH of 7–9 is used in transfer coating systems, where it offers stable formulation compatibility and minimizes yellowing. MFFT (Minimum Film Formation Temperature): Impranil CQ DLS/1 Waterborne Polyurethane Resin with an MFFT of below 5°C is used in flexible film production, where it allows for low-temperature processing and flexible coating layers. Tensile strength: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a tensile strength of 25 MPa is used in technical textile laminates, where it delivers high mechanical stability and resistance to tearing. Elongation at break: Impranil CQ DLS/1 Waterborne Polyurethane Resin with an elongation at break of 500% is used in automotive interior coatings, where it imparts elongation capacity for flexible and crack-resistant surfaces. Stability temperature: Impranil CQ DLS/1 Waterborne Polyurethane Resin with stability up to 60°C is used in industrial coating systems, where it maintains viscosity and performance under elevated storage and processing temperatures. Adhesion strength: Impranil CQ DLS/1 Waterborne Polyurethane Resin with enhanced adhesion properties is used in footwear upper coatings, where it ensures strong bonding to diverse substrates and prolonged product life. Gloss level: Impranil CQ DLS/1 Waterborne Polyurethane Resin with a semi-gloss finish is used in bag and luggage coatings, where it provides an attractive appearance and easy-to-clean surface. |
Competitive Impranil CQ DLS/1 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.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Every batch of Impranil CQ DLS/1 tells a story about how materials shape everyday items. At our site, we work daily with this waterborne polyurethane resin, and over the years we’ve learned where it stands out and where its limits show. Impranil CQ DLS/1 is known by many in the coating and textile finishing sectors—some through hands-on trials, others through technical formularies. But having mixed, filtered, and checked it firsthand, we see what really matters once it leaves our tanks.
This resin brings genuine value to applicators chasing reliable film formation and strong adhesion on flexible substrates. What’s different with CQ DLS/1 stems from its chemistry. It’s a polyester-based waterborne polyurethane, which translates to a balanced combination of flexibility and toughness once applied and dried. Wettability, recoatability, and film clarity matter to finishers, and these come consistently from CQ DLS/1. Our operators can verify its emulsion stability, sometimes even before lab equipment catches a problem. If the product sits overnight or goes through a temperature shift, we’ve learned that the emulsion holds steady when many other products start to show settling or separation. That stability avoids headaches for factories running nonstop.
Years back, solvent-based systems dominated finishing lines, prized for durability but notorious for high VOCs and strong odors. We spent long nights scrubbing out lines and swapping filters to avoid cross-contamination. Waterborne technology changed all that, but not every formulation adapted well. Some early waterborne polyurethanes lacked toughness or blocked easily in rolls, causing expensive downtime. With Impranil CQ DLS/1, we see noticeably better film uniformity and fewer roller pick-up problems, especially on high-speed lines. That reliability means large-scale users place repeat orders, knowing they won’t have to stop their line to clear out gummed equipment.
CQ DLS/1 isn’t just a random code for us. It marks a particular recipe within the Impranil family, engineered for stability and film performance. Our batch records trace every drum’s journey, and over time, we notice patterns—some clumps in earlier trial batches, slight shifts in viscosity from raw material changes, small tweaks in neutralizers or chain extenders that affect final properties. As a manufacturer, resolving these isn’t theoretical; it’s hands-on. We watch how pH tweaks affect emulsion life, and we measure particle size to keep the average tight. Consistency for us means far more than a spec sheet.
One distinction we see with CQ DLS/1 is its solid content, clocking in around the mid-thirties percentage by weight. Applying it as received delivers good coverage with minimal coalescing aids, which streamlines downstream process steps. Customers have told us they appreciate that the product doesn’t clog standard spray heads or jet looms. Not every waterborne polyurethane can say the same, especially with the typical mineral filtration used on some sites. When customers run CQ DLS/1 through fine nozzles, they report fewer build-ups, and our own maintenance logs back this up. We’ve processed thousands of kilos through our lines and rarely face the filter changes that slower-settling emulsions require.
The proof comes on coating and textile laminating lines. CQ DLS/1 serves as a backbone for both clear and pigmented topcoats, wet-on-wet layering, and transfer coatings. Its flexibility after drying makes it a fit for products needing some give, like synthetic leathers or athletic textiles. Tanners and coaters looking for between-layer adhesion keep coming back to this resin because it grips both to base fabric and to additional coating layers. Some clients like its moderate tack-free time—fast enough to keep production moving, slow enough to allow repairs. In practical terms, that balance saves resources by cutting down waste and off-grade rolls.
We supply a range of users, from sportswear finishers to technical textile houses. Some aim for the smoothest feel, others for abrasion resistance or chemical durability. CQ DLS/1 meets both needs, provided the formulator tunes their process—adjusting dilutions, picking the right crosslinkers, and setting the right drying profile. The resin’s polyester backbone means it plays well with softeners and momentary plasticizers, but stands up to repeat flexing without powder-out. Regular customer audits sometimes tour our production areas and note how the resin maintains clarity, with little tendency to yellow—a real advantage in products aiming for premium visual standards.
Humidity swings, temperature cycles, and long storage times challenge every emulsion, not least polyurethane dispersions. We store CQ DLS/1 in drums and totes—for local and export routes—and watch how it reacts. The product resists phase separation, even in warehouses swinging through cold mornings and hot afternoons. Our techs routinely agitate stock and report minimal sediment in fresh or aged lots, a level of stability that shortens preparation time at customer sites. Few resins in our portfolio ride through as wide a climate window.
With end-of-line sheets, our QC crew measures gloss, surface continuity, and post-cure toughness. We run every batch through standard abrasion and wash cycles. CQ DLS/1 holds up, with low changes in gloss and tenacity. In wet flex tests, the topcoat resists whitening and retains stretch. Technically, this points to good molecular alignment and high polymer integrity, but operationally it means fewer complaints and smoother rollouts for our clients. Years of feedback from export markets in both humid and arid zones have shown the resin performs reliably when others start developing haze or chalking.
Some users pick CQ DLS/1 for niche uses—pressure-sensitive adhesives for specialty tapes, high-clarity coatings for garment labels, or as a binder for effect pigments in technical fabrics. In the field, shops need a resin both robust and adaptable. CQ DLS/1 supports thick film builds without sagging, proving itself on vertical panels and embossed substrates. This behavior comes from the careful balance of chain length and ionic character in the formulation—a result of iterative pilot runs and direct customer feedback.
A good example: coating shops needing easy handling but robust final film send feedback asking us to tweak foam suppression or flow agents. Some resins demand multiple additives to control surplus foam during high-shear coating. CQ DLS/1 works well even at elevated line speeds, needing less surfactant adjustment and rarely causing foaming overflows or craters that disrupt jobs in progress. Our records show a reduction in setup times, batch-to-batch variances, and scrap rate tied to these stable processing characteristics.
Many resins compete for space in industrial formulations. We monitor changes in raw material markets, regulatory environments, and customer process upgrades. Some polyurethane dispersions focus on hard film formation—suitable for rigid substrates but often too brittle for flexible applications. Others push ultra-softness, but then struggle with block resistance, showing sticking or transfer during storage or shipment. What sets CQ DLS/1 apart is its balanced middle ground. High tensile strength pairs with enough elongation for tough, flexible goods.
Some older polyester-based systems yellow after UV exposure and lose flexibility with exposure to cleaning solvents. Repeated tests in our lab with CQ DLS/1 indicate superior color retention and better hydrolysis resistance. This shows in the field when users launder coated goods or expose coated fabric to sunlight for weeks. Our export clients particularly value the resin’s predictable weathering patterns, where disappointment with previous products brought them to seek alternatives.
Compared to polyether-based alternatives, CQ DLS/1 brings improved solvent resistance and holds its finish in demanding environments, such as medical fabrics or automotive interiors. Some customers tried switching to generic waterbornes for cost reasons, only to revert to CQ DLS/1 for scratch resistance and longer service life. We track complaint rates in our shop; the most telling metric is that returns and performance issues drop sharply with consistent use of this resin.
Operators on our line appreciate that CQ DLS/1 eliminates the harsh odors and dangerous fumes standard in older solvent-rich polymers. VOC measurements on our filling floor consistently show amounts well under increasingly strict global limits. This helps not only with regulatory compliance but also keeps the air clear and work areas safer, which cuts down on personal protective equipment requirements. In recent years, buyers and regulatory auditors have ramped up scrutiny on emissions, and CQ DLS/1 provides an answer backed by verifiable test results from both our own in-house teams and accredited third-party verifiers.
Waterborne dispersions consume less energy during cleanup. On our production lines, tank and hose washing uses water as the main cleansing medium, making post-run cleaning safer, quicker, and less dependent on specialty solvents. Line workers have noticed the difference when switching from older technologies to CQ DLS/1—washdowns take less time, and equipment sees less long-term buildup. The combination reduces both downtime and waste disposal bills. These practical, day-to-day improvements often matter more to users than any marketing claim.
One of the biggest questions from customers is about recoatability—how soon can they go back over a layer without risking poor adhesion or visual defects. Real-world conditions do not always match textbook drying curves, and a resin’s open time can make or break production speed. CQ DLS/1 has been shown time and again in our trials to tolerate variable drying schedules – sometimes as short as 8 minutes at moderate airflow, sometimes closer to 30 minutes for thick applications. This tolerance helps customers who adjust lines often or run diverse product grades.
Another common area is mixing tolerance. Fillers, pigments, and functional additives mix freely with CQ DLS/1, without clumping or gelling. Users report smooth blending, even with challenging effect powders or metallic flakes. Resin lots pass our homogeneity checks without extended milling or adjustment—this brings direct savings in labor and rework costs. Rare issues, such as foaming under very high-speed agitation, are usually tied to improper additive sequencing, not resin quality itself. After identifying these factors, users consistently improve their process with modest tweaks.
No resin fits every purpose out of the box. Some operators with specialized textiles need further crosslinking for block resistance or to meet extreme abrasion needs. We support these users by sharing formulation tips, optimal crosslinker ratios, and troubleshooting experiences. During plant visits, we often see customers balancing cost versus performance—leaning too hard on fillers or attempting to stretch coverage on low picks can undermine durability, but CQ DLS/1’s inherent toughness absorbs pitfalls that would cripple weaker resins. That built-in resilience builds long-term confidence.
From the manufacturing side, we always watch for raw material fluctuations. Supply chain interruptions test how flexible CQ DLS/1’s recipe can be without sacrificing performance. Our teams tracked several close calls over the last few years—price swings in diols, pigment shortages, regulatory updates on isocyanate content. Careful monitoring and adjustment allowed us to maintain tight specs on viscosity, particle size, and solids, with few out-of-spec drums. This stability supports both our operations and those of customers who rely on predictable, high-quality resin from month to month.
Nothing replaces direct conversations with operators and coating managers using CQ DLS/1 in the field. Problems like edge lift, blush, or unexpected tack show up long before they reach a report form. Our staff routinely gather real feedback and adjust recommendations or product properties where possible. Several successful formulation upgrades came out of problems shared by small-volume users whose insights translated into improvements that went back into full-scale batch changes.
Flexibility in batch size and labeling details adds to our product’s strength. We notice some finishers want custom drums, short-run lots, or tighter spec sheets for traceability. Being an actual manufacturer, we can answer these requests. Our plant’s layout and scheduling let us shift production to handle urgent orders, and our team has gotten adept at communicating changes or delays clearly, so customers plan ahead. This transparency builds long-term relationships and boosts user confidence.
Continual push for safer, more sustainable coatings places waterborne systems front and center. Regulation across regions keeps tightening, making low-VOC, NMP-free options vital. CQ DLS/1 gives a head start, already clearing many hurdles that trip up generic resins. Its applicability to both consumer and technical goods means new opportunities in markets that demand performance without sacrificing environmental soundness. We track inquiries from automotive, medical, and new textile startups, which look for building blocks open to green chemistry trends.
Research and development stay at the top of our agenda. Experienced staff members test combinations of CQ DLS/1 with biobased plasticizers, new crosslinkers, and functional nanomaterials on our pilot lines. We invest in better analytics—thermal stability, stress cracking, hydrolysis rates—so any tweaks or new versions match the reliability of today’s material. As interest grows in recycled and sustainable substrates, the adaptable adhesion profile of this resin provides our technologists with a solid base to push boundaries.
Day-to-day, the strengths of Impranil CQ DLS/1 become clear not in marketing pitches, but in reduced downtime, cleaner air on the shop floor, quicker batch changes, and fewer product rejections. The product owes its reliability to careful recipe control, steady raw materials, and understanding born from years of hands-on production and problem-solving. Users who demand robust film formation on flexible or complex substrates continue to rely on this waterborne polyurethane resin because it delivers results right where they matter—on the line, at the press, and in the hands of the final consumer. Real production never stands still, and neither do we; the performance of CQ DLS/1 comes from constant dialogue with users and a readiness to tackle tomorrow’s materials challenges head-on.
