|
HS Code |
624295 |
| Appearance | Milky white liquid |
| Solid Content | 34% ± 1% |
| Ph Value | 7.0 – 8.0 |
| Ionic Type | Anionic |
| Viscosity | ≤ 500 cps (at 25°C) |
| Particle Size | ≤ 200 nm |
| Film Hardness | Good |
| Water Resistance | Excellent |
| Adhesion | Strong to various substrates |
| Storage Stability | 6 months (under 5–35°C, airtight container) |
As an accredited SK6334 Waterborne Acrylic Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The SK6334 Waterborne Acrylic Resin is packaged in a 25-kilogram blue plastic drum with a secure, tamper-evident seal. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for SK6334 Waterborne Acrylic Resin: Typically holds 16-18 metric tons, packed in 200kg drums or 1000kg IBC tanks. |
| Shipping | SK6334 Waterborne Acrylic Resin is shipped in sealed, durable drums or totes to ensure product integrity and prevent contamination. The containers must be kept upright and protected from direct sunlight, extreme temperatures, and freezing. During transit, care is taken to avoid damage or leaks, ensuring safe and compliant delivery. |
| Storage | SK6334 Waterborne Acrylic Resin should be stored in tightly sealed containers at temperatures between 5°C and 35°C, away from direct sunlight and frost. Keep it in a well-ventilated, cool, and dry area, away from incompatible materials. Avoid exposure to extreme temperatures and freezing conditions to maintain product stability and performance. Always follow local regulations for chemical storage. |
| Shelf Life | SK6334 Waterborne Acrylic Resin has a shelf life of 12 months when stored in tightly sealed containers at temperatures below 40°C. |
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Solid Content: SK6334 Waterborne Acrylic Resin with a solid content of 45% is used in low-VOC industrial coatings, where it delivers high film build and excellent surface coverage. Viscosity Grade: SK6334 Waterborne Acrylic Resin with a viscosity of 3000 cP is used in automotive primer systems, where it enables easy spray application and uniform leveling. Particle Size: SK6334 Waterborne Acrylic Resin with an average particle size of 80 nm is used in clear wood finishes, where it ensures high transparency and smooth gloss. Molecular Weight: SK6334 Waterborne Acrylic Resin with a molecular weight of 80,000 g/mol is used in protective metal coatings, where it provides superior chemical resistance and mechanical strength. pH Value: SK6334 Waterborne Acrylic Resin at pH 8.5 is used in flexible packaging inks, where it enhances printability and substrate adhesion. Freeze-Thaw Stability: SK6334 Waterborne Acrylic Resin with freeze-thaw stability up to -15°C is used in outdoor architectural paints, where it maintains consistent performance in varying climates. Tg (Glass Transition Temperature): SK6334 Waterborne Acrylic Resin with a Tg of 25°C is used in soft-feel coating applications, where it delivers a balance of flexibility and film integrity. Emulsion Stability: SK6334 Waterborne Acrylic Resin with high emulsion stability is used in textile finishing, where it ensures reliable application and wash durability. Adhesion Strength: SK6334 Waterborne Acrylic Resin with adhesion strength exceeding 2 MPa is used in pressure-sensitive adhesive formulations, where it guarantees superior bonding to diverse surfaces. Chemical Resistance: SK6334 Waterborne Acrylic Resin with enhanced acid and alkali resistance is used in industrial floor coatings, where it improves durability and extends service life. |
Competitive SK6334 Waterborne Acrylic 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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SK6334 waterborne acrylic resin draws directly from our history on the production floor, where practical performance and responsible formulation matter most. In our company, we measure success by how coatings behave not just in data sheets, but also in the hands of technicians, contractors, and manufacturers, where a change in weather or substrate can spell the difference between a job well done and callbacks later. We introduced SK6334 to fill a stubborn gap: reliable adhesion and film durability without the heavy footprint of solvents. Feedback over the years made it clear—production partners in the furniture, metal, and plastics industries expect more than cost savings; the finish must stand up to abrasion, remain clear, and form a strong bond over varied surfaces.
From day one, our formulation choices have reflected realities we see on shop floors: short downtimes, high-throughput lines, and operators who need consistent mixing and application. SK6334 is one of our resin systems built for waterborne coatings, with a balance between quick drying and extended open time that helps minimize defects. Our technicians have taken plenty of trial batches through full-scale pilot lines, tuning viscosity and particle distribution so customers don't spend their time chasing clumps or fisheyes. These aren't just lab claims—our own finisher teams push the limits in environments with known contamination challenges, changeable humidity, or less-than-ideal substrate prep. If we hear about a setoff or unexpected tack, we investigate the batch, adjust the process, and roll improvements into the next run.
One of the main reasons SK6334 stands out in our lineup is the polymer backbone. Our synthesis approach lets us maintain a stable dispersion that resists agglomeration, which translates to shelf life and application predictability. We keep VOC content low by opting for specific monomers and neutralizing agents that hold up over dozens of application cycles. Some competitive resins break down or separate, clogging nozzles or forming skins. In our case, on-site field reps report back after automotive touch-up runs, and even under repeated agitation, they see little to no settling.
We continually monitor how SK6334 interacts with common cross-linkers and pigments. There's no one-size-fits-all here—our project chemists collaborate directly with partner labs, targeting compatibility with common waterborne additives and pigment pastes. Because it's easy to move between substrates—wood, metal, composites—without swapping out process or equipment, plant managers and paint-shop supervisors report less downtime on their lines after shifting to our acrylics. In our feedback loop with customers, one recurring point is how SK6334 helps avoid batch-to-batch variation. Operators in facilities processing hundreds of gallons a day see less scrap and fewer line shutdowns, not from theoretical quality, but because our batches don’t drift from spec.
SK6334 isn't just about shelf stability; we calibrate for how people really work. Most daily operators want pourability and a range of acceptable dilution rates. In our internal trials on mixing lines and air spray stations, the resin shows resistance to foaming even under rapid agitation. We use feedback from workers who need to clean equipment quickly and switch between waterborne lines multiple times per shift. To support this, our resin is designed to rinse out with minimal residue, so plant downtime stays short. Logistics managers in our customer companies appreciate the moderate hazard profile—storage and transport meet standard waterborne regulations, freeing up floor space in warehouses or on delivery trucks.
Even the detail of container opening matters. Many of our customers buy by the drum, and we work closely with their maintenance crews to review package handling, spillage risks, and disposal. The less material left behind when a drum gets emptied or switched, the more money stays in our clients’ budgets. With SK6334, we don't sacrifice these practicalities in the name of optics.
We hear plenty of talk about sustainability, but as manufacturers, we’re held to account through concrete metrics. SK6334 achieves compliance with major international environmental standards—especially on VOC levels and heavy metal exclusions—not through afterthought, but by integrating these criteria into our raw material purchasing and production runs. We constantly chase ways to lower process emissions at our plant and improve effluent treatment, but the bigger push comes from evolving the formula year-over-year so clients don’t feel forced to revert to solvent systems for critical jobs. We get our fair share of requests from OEM clients needing cradle-to-gate footprint disclosures, and SK6334 product data is kept available for those audits, backed by real manufacturing records.
Of note, our team runs long-term simulations to predict how every batch ages under storage, how films degrade in heat-cycling, or after cleaning in commercial kitchens or industrial machinery. If a customer logs a complaint about discoloration or mold, the incident goes immediately to our plant lab. Sometimes, solutions are as simple as a tweak in neutralizing amine or recalibrating pH tolerances. Other times, we dig deep into monomer sourcing or adjust surfactant blends to reduce microfoaming. This is responsible stewardship that never relies on mere rhetoric.
One of our head chemists recalls a time when a long-term customer in the metal furniture sector faced poor adhesion from a competitor’s resin during winter, leaving blotchy finishes after delivery. After switching to SK6334, they reported consistent coverage, even at lower temperatures and less precise prep—a testament to the controlled particle size and careful stabilization system inside our drums. We’ve replicated those outcomes across multiple industry segments. In flooring finishes and wood cabinetry, finishers report less yellowing and easier sanding between coats, attributed to our avoidance of aggressive cross-linkers that can react unpredictably with tannins in hardwoods.
The packaging industry offers another case: One of our partners needed reliable adhesion on aluminum substrates, including printed cans and foils. They needed a waterborne acrylic that handled rapid drying on fast conveyors, without bulging films or popping bubbles. Our process engineers set up custom-matched pilot runs, adjusting the coalescent balance for high-speed evaporative conditions. Field performance data from these lines prompted us to further refine the base formula for anti-block, so stacked packages don't stick together days after processing. These incremental refinements have kept customer complaints low and yields high, year after year.
As manufacturers, we’re regularly asked to deliver not only consistency but also support during product changes or process scale-ups. Every customer batch draws from our main line, where we maintain full traceability from raw ingredient to packaged drum. If a technical manager wants validation samples, we give clear historical performance comparisons drawn from our real production records, not just idealized results. In large-scale operations, production downtime costs real money, so we share mixing and application tips based on thousands of hours spent with the resin. We’re on hand during commissioning—sometimes physically at the site, sometimes virtually—to troubleshoot or adapt process settings, because we know each factory, each spray line, and each oven bank has its own quirks.
One piece of advice we often share: Pay attention to airflow and film build. Our operators, having sprayed thousands of square meters under varying conditions, note that an even temperature gradient during drying makes a noticeable difference to final gloss and adhesion strength. Too much airflow or too high a temperature can pull moisture too quickly, leading to surface defects. We designed SK6334 to be more forgiving here, with slower coalescence and a balanced surfactant package to resist pinholes. This came from learning on our own lines, not laboratory guesswork.
The acrylic resin market can turn into a maze of claims about compatibility, coverage, or ‘advanced’ properties. Many products are relabeled or repackaged, rarely touching the original manufacturer. We produce SK6334 ourselves, with full oversight of every step. Compared to typical entries in the waterborne acrylic field, SK6334 is engineered for balanced film integrity and flexibility, so coatings don’t crack under repeated bending or flexing—a common pain point in textiles, films, and flexible panels.
Some widely used resins prioritize one property at the expense of overall coating endurance. We've avoided shortcuts in glass-transition temperature tuning, emulsion stabilization, or antifouling additives. We don’t simply overfill with plasticizers to fake flexibility: Instead, our emulsion process yields a resin backbone inherently suited for both flexibility and durability.
Our partners across industries routinely point out that with SK6334, the learning curve shortens. Line workers adapt faster not just because of internal training but due to genuinely smoother handling and broader process windows. It's common to hear that new operators produce sellable coated parts in fewer shifts compared to generic acrylics, which means less retraining and rework.
The evolution of SK6334 tracks closely with real field data, not just short-term testing. We keep detailed archives of production trial results, field complaints, and post-mortem analyses on failures. For example, we hemoscoped hundreds of panels aged in outdoor exposure racks to check long-term color fastness and adhesion on various substrates. Each incident of chalking or gloss loss brings us back to tweak stabilizer content or pH buffering capability. We also respond quickly to shifts in end-user preferences—OEMs request lower odor or faster recoating times, and our plant staff coordinate regular formula upgrades based on these signals.
In some regions, end users face tighter environmental controls each year. Our continuous dialogue with regulatory advisors means SK6334 stays ahead of compliance needs, so our customers aren’t left scrambling with reformulation. This reliable supply and regulatory comfort creates lasting partnerships—we have customers who have stuck with our resins through multiple business cycles and product lines.
SK6334 is an example of what happens when a manufacturer treats customer pain points as design mandates. Each batch holds lessons gathered from full-size mills and production lines, not just test benches. Every improvement, from surfactant tweaks to packaging materials, addresses specific observations from customer visits or after-action reports, not just hypothetical use cases.
People who use our acrylic resin see tight specs held, not just during onboarding, but across years of repeat orders. We see fewer line issues, less operator adjustment hassle, and real reductions in material waste and emissions. Customers tell us their audits go faster with our resin in play, and their risk management teams see fewer failure modes tied to material variability.
Above all, SK6334 is not the result of lucky trial and error. It stands as proof of what real-world experience, open communication, and process discipline can deliver in an acrylic resin for waterborne systems. Direct from our plant to application floors worldwide, it’s a product that answers to both the demands of the market and the scrutiny of daily industrial practice.
Any resin can sound good on paper, but credibility comes from years on the line and an open book on formulation changes. We update customers about modifications based on raw material shifts or regulatory changes. Every claim comes from batch-scale experience—if a new end-use case emerges, we run in-house trials, share third-party test results, and visit customers' lines to close the feedback loop. We don’t hide behind distributors or rebranders: Each drum of SK6334 comes off our lines, bearing the direct imprint of our process controls and manufacturing ethos.
Real trust is built on consistent supply, technical transparency, and a steady commitment to improvement. In every shipment, in every support call, customers see we manufacture with one eye on the details and another on the next set of challenges the coatings industry will bring.
