|
HS Code |
909793 |
| Appearance | milky white liquid |
| Solid Content Percent | 45±1 |
| Ph Value | 7.0-8.5 |
| Ionic Type | anionic |
| Viscosity 25c Mpa S | 500-2000 |
| Film Hardness | HB-H |
| Minimum Film Forming Temperature C | ≥0 |
| Glass Transition Temperature Tg C | 20 |
| Density G Cm3 | 1.04±0.02 |
| Storage Stability Months | 6 |
As an accredited GS-5000B Waterborne Acrylic Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The GS-5000B Waterborne Acrylic Resin is packaged in durable 25-kilogram (kg) blue plastic drums with secure, tight-fitting lids. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 16 metric tons packed in 160 x 200kg drums of GS-5000B Waterborne Acrylic Resin per container. |
| Shipping | GS-5000B Waterborne Acrylic Resin is typically shipped in sealed, 200 kg plastic drums or 1,000 kg IBC totes. Containers are clearly labeled and protected from direct sunlight, freezing, or extreme heat during transit. Ensure upright transport and adhere to local regulations for the handling of non-hazardous chemical materials. |
| Storage | GS-5000B Waterborne Acrylic Resin should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of heat. Keep the container tightly sealed to prevent contamination or evaporation. Avoid freezing temperatures. Ensure storage areas are free from incompatible materials, such as strong acids or alkalis. Proper storage ensures product stability and maintains its performance characteristics. |
| Shelf Life | GS-5000B Waterborne Acrylic Resin has a shelf life of 6 months when stored in a cool, dry, and sealed container. |
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Solids Content: GS-5000B Waterborne Acrylic Resin with 45% solids content is used in industrial metal coatings, where it provides enhanced film build and superior corrosion protection. Viscosity: GS-5000B Waterborne Acrylic Resin of 2500 cps viscosity is used in waterborne automotive primers, where it ensures optimal leveling and smooth surface finish. Particle Size: GS-5000B Waterborne Acrylic Resin with average particle size of 120 nm is used in clear wood finishes, where it allows for high gloss and excellent transparency. Molecular Weight: GS-5000B Waterborne Acrylic Resin with a molecular weight of 85,000 g/mol is used in architectural paints, where it delivers improved durability and weather resistance. pH Value: GS-5000B Waterborne Acrylic Resin at pH 8.0 is used in flexible packaging adhesives, where it promotes stable dispersion and consistent adhesive strength. Minimum Film Forming Temperature: GS-5000B Waterborne Acrylic Resin with a minimum film forming temperature of 12°C is used in low-temperature wall paints, where it enables effective film formation in cool climates. Freeze-Thaw Stability: GS-5000B Waterborne Acrylic Resin exhibiting five-cycle freeze-thaw stability is used in outdoor construction coatings, where it ensures reliable storage and application in varied environments. VOC Content: GS-5000B Waterborne Acrylic Resin with VOC content below 30 g/L is used in eco-friendly interior wall coatings, where it supports compliance with green building standards. Adhesion Strength: GS-5000B Waterborne Acrylic Resin featuring adhesion strength of 2.5 MPa is used in multi-layer protective coatings, where it assures long-term substrate bonding. Chemical Resistance: GS-5000B Waterborne Acrylic Resin with enhanced chemical resistance is used in industrial floor coatings, where it offers reliable protection against oils and cleaning agents. |
Competitive GS-5000B 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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GS-5000B Waterborne Acrylic Resin grows out of our direct work in developing reliable, everyday solutions for coatings and adhesives. For manufacturers searching for a tough, practical resin that handles water-borne systems, this product gets the job done where many competitors lose ground. Our teams in production and R&D have spent years adjusting formulas and running trials to tighten film formation, improve early water resistance, and solve challenges that show up beyond the lab. Out in the plant, reliable resin means less downtime, fewer warranty claims, and coatings that satisfy end users even in tough climates. We have seen how this resin holds up, not just in theory, but on real production lines where results count.
Inside our walls, we focus on replicating each batch of GS-5000B down to the fine details. This is not about being fancy, but about making life predictable for customers. The specific chemistry combines a balanced particle size distribution with tuned acid numbers. Over years of observing process results, our techs have refined operating windows—avoiding sticky gels on one side and brittle films on the other. Performance differences appear most strongly in how GS-5000B settles in tanks or during milling, compared to commodity resins that tend to either foam up or separate. Repeat customers have shared that downtime for cleaning lines drops, as does filter clogging. Those details come from knowing what actually happens in a production environment, not just reporting in brochures.
Every specification was chosen based on hands-on testing, especially where theoretical numbers often mislead. Our target solids content sits in the mid-forties percentage range, selected after years of balancing sprayability with pot life in practical factory settings. The pH window, viscosity range, and minimum film-forming temperature come right out of actual jobs: wood finishes, construction primers, and textile back-coatings. These numbers are not set by a standards committee, but by a blend of customer feedback and our own troubleshooting. During cold months, manufacturers often struggle with coalescing aids or slow drying; GS-5000B can form films at temperatures low enough to avoid resorting to solvent-based blends. If one batch doesn’t mix the same way, we hear about it—and we trace everything to the barrel.
GS-5000B supports applications where water-based systems run into trouble, especially where users demand solvent-free processes but can’t accept compromised durability. Large panels in furniture lines, exterior wood coatings on siding, and primers for masonry have all driven our formula tweaks. In wood finishing, fast sandability and good grain accentuation have kept our resin in high-volume lines where both appearance and workflow speed matter. For concrete protection, the resin locks in pigment, helping the same color hold up through rainy seasons with no chalking or flaking. Water-borne adhesives sometimes suffer slumping or poor initial tack, but our internal field teams pressed for a balance between open time and final grip—which GS-5000B now achieves without stickiness during application. We’ve swapped samples, responded to calls at odd hours, and adjusted reactor settings whenever a customer flagged a pain point. Those lessons go back into the formula, never just into the manual.
From the start, we noticed typical waterborne resins lost performance through over-foaming, susceptibility to yellowing in sunlight, or storage instability. Many brands rely on generic polymers with little oversight; some formulations break down quickly during suspension or lose viscosity on extended standing. With GS-5000B, our technicians monitor emulsion stability over six months, tracking shifts in physical properties and running accelerated aging. One competitor’s product might layer out after a few weeks—resulting in uneven film quality or ‘fish-eye’ defects on application. Conversely, our batches are held just long enough for network development, ensuring consistent molecular weight and proven dispersion for stable storage and use.
Moreover, instead of chasing after lab-only performance benchmarks, we worked on antifouling capabilities and surfactant residue control—problems that hit the bottom line. Residual surfactants can cause sticky films or impact gloss in top coats. We keep a strict handle on these factors, helping GS-5000B deliver a clean finish with stable gloss and minimal foam, even on complex surfaces. Standard resins don’t maintain this balance, which becomes clear during scale-up to commercial lots. We often welcome customers and partners to run side-by-side application tests, using their own equipment. Direct feedback from shop floor technicians sometimes carries more value than lab charts, and these real-world comparisons helped us tune out many persistent issues found in generic products.
Long-term service and environmental compliance weigh heavily on our choices. Some waterborne resins slip through regulations with little oversight regarding monomer content or residual VOCs. Our approach addresses both safety and downstream environmental footprint, actively reducing hazardous monomers during processing and ensuring industry-acceptable VOC content without cutting corners. Not only does this support customers during audits, but it also gives them room to market truly ‘green’ coatings without nervously reading the SDS fine print. Our QA labs monitor off-gassing and track any long-tail emissions, making sure reported values reflect in-use conditions—not just best-case scenarios in climate-controlled test rooms.
Factory workers and end users both benefit from resins that resist ammonia off-odors or skin irritation. Production managers often ask about threshold exposure levels, wanting reassurance that a shift in process won’t mean headaches or skin rashes on their lines. Our raw material sourcing avoids flagged impurities, and each batch certificate responds to those shop-floor concerns directly. Fewer complaints from operators mean better morale and less turnover, supporting smoother operations. Over the years, we’ve seen how these upstream choices foster long-term trust between manufacturing staff, specifiers, and brand owners.
Scaling any specialty resin presents headaches, especially where process water quality or ionic contamination could set off gelling, clumping, or viscosity drift. Early runs of GS-5000B forced us to engineer new filtration steps and continuous monitoring across polymerization. Sometimes, even a slight change in agitator RPM or ingredient loading sequence could swing viscosity by fifty percent. Instead of chalking up outliers to operator error, our plant supervisors started a direct-reporting feedback loop. Each incident, whether a sluggish pump or delayed cure, pushed our team to isolate trouble sources and enforce stricter in-process controls. We have no illusions about perfect batch-to-batch uniformity, as weather, water supply, and raw feedstocks fluctuate. Continuous logs, frequent cross-sampling, and honest reporting have delivered steady consistency, even across a thousand-metric-ton run.
For furniture makers, floor coaters, and industrial applicators, throughput matters as much as cure time or shelf life. Our data show how GS-5000B reduces lost hours through better pumpability, fewer filter blockages, and quick cleanup. One recurring complaint with low-grade resins is demand for pH control chemicals or additional anti-foaming agents—extra costs and process steps. With our resin, customers report less need for such interventions, helping them run with simplified workflows and reduced chemical inventories. Manufacturers have shared that, over two or three lines, operational savings add up fast thanks to fewer machine stops and reworks. We take these numbers as signs that process improvements pay off, not in marketing slogans but in actual ledger entries at the end of each quarter.
End users want clear, durable films whether running on high-density fiberboard, plywood, softwoods, engineered stone, or cementitious composites. Using GS-5000B in multiple substrate tests revealed smooth wetting, no crawling or beading, and strong adhesion without primer in many cases. Chips or scratches that expose underlying substrate do not lead to flaking or ‘telegraphing’ failures—a sign that intercoat adhesion holds up over thermal cycling and humidity swings. Applying the same resin to horizontal and vertical surfaces in fast-moving operations also showed no sags or drips outside the expected range, which means operators can trust their tools and avoid wasting time on bench rework. We frequently encourage client plants to run their own trials, as direct experience means more than any claim from a supplier. Real-world performance, not certified lab data alone, sets good resin apart from unreliable commodity lots.
Operational budgets in finishing shops and paint lines run tight. A resin that needs repeated cleaning, careful handling, or constant blending with expensive additives quickly turns into a hidden expense. Overhead rises when defective batches mean returns or lost contracts. We studied cost breakdowns across client operations, measuring everything from lost material to water usage. GS-5000B came through with reduced downtime and scrap, often shaving significant sums over the course of a year. One furniture plant tracked defect rates before and after switching resins; their out-of-box failures dropped by almost a third. This comes not from magic, but from relentless pursuit of cause-and-effect, listening to what customers truly need, and making sure no batch strays beyond tightly set tolerances. Our sales and tech teams do not gloss over product issues—they return calls, investigate claims, and roll learning from failures back into future production runs.
Environmental compliance continues to shift as new standards emerge for VOC content, extended producer responsibility, and trace monomer regulations. Where other resin makers tack on green labels without changing core processes, we scrutinize every upstream material for compliance. Regular audits and voluntary testing assure that GS-5000B stays ahead of looming regulations, easing the way for users in export or domestic markets. We treat every suggestion for greener chemistry seriously, whether it is reducing energy in emulsion polymerization or fine-tuning surfactant cocktails for lower aquatic impact. These measures anticipate changes before enforcement, narrowing the risk of sudden product recalls or headaches with regulators. Reliability today counts for little if tomorrow’s standards are missed—our plant managers keep that ethic close by ensuring every GS-5000B batch meets or surpasses evolving requirements, not just today’s baselines.
Making good resins means working side by side with customers, from technical service visits to joint process audits and shared troubleshooting. Our staff have stood by in customer plants diagnosing specific application issues: whether it is a clogging gun, an unexpected odor, or a variable cure in changing seasons. This feedback forms a living knowledge base that shapes not just GS-5000B, but every future R&D push. We learn as much in noisy factory aisles as we do from tests in climate chambers, and we welcome criticism that helps us build better products. Supply chain partners, direct users, and even maintenance supervisors have all had their say in where the resin needs work—and those conversations drive our formula improvements far more than abstract market analyses. Good chemistry is grounded in honest, ongoing partnership; our record bears that out.
GS-5000B’s journey began with common problems: foaming, tackiness, cure drift, and compatibility woes that seem mundane until they cost a plant real money. Our solution was never a leap to new technology for its own sake, but cautious, documented steps adjusting particle size, surfactant blend, and acid monomer ratios. Each improvement came with a round of full-scale production, open communication with users, and transparent discussion of any failures. The result is a resin that does not rustle with surprises weeks down the line, and longstanding partners return precisely because drama is rare. We expect to keep evolving as customer lines grow faster, applications diversify, and environmental rules keep changing. Customer experience keeps us sharp, and as conditions shift, you will find us still answering calls, tweaking formulations, and running production batches with both consistency and accountability.
GS-5000B Waterborne Acrylic Resin stands as a direct proof that manufacturer dedication to detail and openness to learning pays off at scale. In an industry crowded by bulk suppliers and generic blends, long-term partnerships stem from products that do what they promise, batch after batch. For every new order, we commit the same focus and hands-on approach that brought GS-5000B to life: listening hard, working with real-world data, and investing in reliability over short-term gains. If your workflow needs consistent performance in waterborne coatings, our experience and willingness to adapt set our resin—and team—apart from those content with mediocrity. That attitude drives us forward, and feedback from the field keeps our standards stubbornly high.
