|
HS Code |
684407 |
| Product Name | EPS 2719 Waterborne Acrylic Resin |
| Appearance | Milky white liquid |
| Solid Content | 48% ± 2% |
| Ph Value | 7.0 - 8.5 |
| Viscosity | 100-500 mPa.s (25°C, Brookfield #4, 60rpm) |
| Ionic Nature | Anionic |
| Minimum Film Formation Temperature Mfft | 25°C |
| Particle Size | 80-150 nm |
| Density | 1.05 g/cm³ |
| Chemical Resistance | Good |
| Glass Transition Temperature Tg | 30°C |
| Freeze Thaw Stability | Stable (for 5 cycles at -5°C to 25°C) |
As an accredited EPS 2719 Waterborne Acrylic Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | EPS 2719 Waterborne Acrylic Resin is supplied in a 200 kg blue, high-density polyethylene drum, featuring clear product labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 16MT packed in 160 x 200kg plastic drums, on pallets, suitable for waterborne acrylic resin transport. |
| Shipping | EPS 2719 Waterborne Acrylic Resin is shipped in tightly sealed, corrosion-resistant containers to prevent contamination and moisture ingress. It should be transported and stored in cool, dry conditions, away from direct sunlight and freezing temperatures. Proper labeling and safety documentation accompany each shipment to ensure regulatory compliance and safe handling. |
| Storage | **EPS 2719 Waterborne Acrylic Resin** should be stored in tightly closed containers at temperatures between 5°C and 35°C, protected from direct sunlight and freezing conditions. Ensure good ventilation in the storage area and avoid contamination with incompatible materials. Keep away from sources of heat and ignition. Always follow local regulations and the safety data sheet for safe storage and handling. |
| Shelf Life | EPS 2719 Waterborne Acrylic Resin has a shelf life of 12 months when stored in original, unopened containers at recommended conditions. |
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Solid Content: EPS 2719 Waterborne Acrylic Resin with 45% solid content is used in interior wall coatings, where it provides improved film build and coverage. Viscosity: EPS 2719 Waterborne Acrylic Resin at 1200 mPa·s viscosity is used in high-performance wood primers, where it ensures optimal application smoothness and defect-free finish. Particle Size: EPS 2719 Waterborne Acrylic Resin with a particle size of 80 nm is used in industrial metal coatings, where it delivers superior surface leveling and gloss consistency. pH Value: EPS 2719 Waterborne Acrylic Resin with pH 7.5 is used in eco-friendly architectural paints, where it contributes to paint stability and reduces risk of efflorescence. MFFT: EPS 2719 Waterborne Acrylic Resin with a minimum film formation temperature (MFFT) of 10°C is used in exterior masonry paints, where it enables early film formation under cooler conditions. Purity: EPS 2719 Waterborne Acrylic Resin with 99% purity is used in clear varnishes for furniture, where it enhances transparency and overall finish clarity. Tensile Strength: EPS 2719 Waterborne Acrylic Resin with tensile strength of 8 MPa is used in flexible sealant formulations, where it improves crack resistance and durability. Water Resistance: EPS 2719 Waterborne Acrylic Resin with high water resistance is used in bathroom wall paints, where it prevents blistering and paint degradation from humidity. Adhesion: EPS 2719 Waterborne Acrylic Resin with enhanced adhesion properties is used in primer layers for metal substrates, where it increases bond strength and prolongs coating life. Stability: EPS 2719 Waterborne Acrylic Resin with storage stability at 40°C for 6 months is used in shelf-stable paint formulations, where it maintains consistent performance over time. |
Competitive EPS 2719 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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EPS 2719 waterborne acrylic resin came out of a specific need on the production floor. Over the years, more customers turned to us asking for a resin that could handle changing environmental policies, while giving them reliability during application and curing. What separates EPS 2719 is the combination of its pure acrylic backbone with a particle size distribution we tune closely during polymerization. From day one, we've kept a careful eye on batch-to-batch consistency, and the results show in the lab and on the job.
EPS 2719 stands on a solid, internally developed recipe. By employing a proprietary surfactant and emulsification approach, the end product gives stable dispersion and consistent viscosity, even after long-term storage. We produce it as an aqueous emulsion with a solids content that reaches the 45-48% range, which lets formulators hit coverage targets without overdilution. We pinpoint the pH for maximum film-forming ability under real-world conditions.
This resin doesn’t just claim to be “eco-friendly”; it actually delivers. Many governmental specifications now limit solvents and formaldehyde content. EPS 2719 was formulated specifically to keep free monomer and volatile organic compounds low from the start—allowing downstream paint makers to comply with tightening regulations. In our plant, raw material selection, emulsion droplet control, and reaction conditions all aim to keep residuals as low as possible. Test data backs this up, and every batch is certified for compliance with the standards that matter to coatings, interior wall finishes, and other demanding segments.
Inside our own application lab, EPS 2719 shows strong adhesion across multiple substrates, from gypsum board to concrete, galvanized steel, and wood. During roll-out and spray testing, the resin forms a balanced film above even the most porous bases. Painters tell us that EPS 2719 gives open time for good brushability and reaches touch dry without uneven patches. These properties come from the core-shell architecture of the polymer, which our process team designed to boost flexibility and toughness, without sticking with the old plasticizer-heavy systems.
Our resin has been used by clients for both interior and exterior paint systems. We watch performance in accelerated weathering cabinets and in real outdoor exposure. The tests show resistance to chalking and color change at levels that rival solvent-based acrylics. We don’t see premature cracking or peel-off, provided the surface prep meets the basic requirements. These results come from our particular choice of crosslinker and chain transfer agent, which have been adjusted over time according to field feedback and test panel results.
Water resistance and alkali stability stand among the most frequently mentioned challenges when moving to waterborne coatings. Field testers have reported that EPS 2719 retains its integrity after repeated wet scrubs and detergent cleaning—a function of both our resin’s backbone and our emulsion’s low water uptake. Alkaline surfaces, especially new cement, no longer risk saponifying the acrylic, because we have eliminated the weak esters that tend to break down under these conditions.
We pay close attention to blocking resistance. During assembly and installation, coated surfaces often come into contact at higher temperatures or under pressure. EPS 2719’s film holds up, resists imprinting, and keeps finish defects to a minimum. Our process data links this to the finely balanced glass transition temperature (Tg), and we keep this value stable across all lots.
The acrylic resin market is crowded, with wide claims about “universal compatibility” and “enhanced performance.” From our experience, these phrases are meaningless unless they translate into something measurable on the customer’s end. Compared to earlier-generation waterborne resins, EPS 2719 holds pigment better, so you get less flooding and floating in colored systems. We prove this by running repeated pigment dispersions and stress tests in our own formulation shop.
What stands out: paints made with EPS 2719 show less efflorescence on mortar and block walls, and maintain higher gloss when formulated as enamels. Colleagues in the field say these finished surfaces keep their fresh look longer, particularly in humid or smoggy environments. This has been confirmed by our own panel exposures at industrial and residential job sites.
Some clients have compared EPS 2719 to hybrids containing vinyl or PVA—these often cost less, but in our hands, they sacrifice weatherability and lose adhesion during cleaning or outdoor use. EPS 2719 achieves its UV and chemical resistance from true acrylic chemistry, rather than relying on harder fillers or additives that only give a temporary effect.
Acrylic resins based on pure, older recipes sometimes show brittleness at lower temperatures. We worked through several winters on our test range to tune the emulsion so it stays flexible, helping it bridge hairline cracks without splitting. This flexibility means fewer callbacks for touch-ups and repairs, which keeps both applicators and building owners satisfied.
One subtle but important advantage: EPS 2719 has extremely low odor during both manufacture and end use. Clients have told us this makes it suitable for educational, healthcare, and office environments, where solvent fumes remain unacceptable. By going beyond old standards, we’ve been able to open up new markets for waterborne paints and coatings.
Our factory management team studies every new set of environmental and safety rules as they develop. When VOC limits dropped across East Asia and Europe, we did not wait for customers to ask; we redeveloped the EPS 2719 resin to meet and often beat the most demanding targets. This required deep changes in monomer selection, purification, and plant hygiene. It’s not only regulatory inspectors who notice the difference—employees mention fewer odors on the production floor, and less residue during equipment washes.
Unlike some generic products, EPS 2719 avoids softeners that leach over time or emit phthalates. The safety team conducts repeated migration checks on dry films, especially for toys, schools, and interior finishes. No flagged plasticizer or heavy metal components have ever shown up in production or end-use testing. Formulators can have confidence in these results—they match what the certificate says because we run our own analysis, not just rely on supplier declarations.
The shift to waterborne systems sometimes raises concerns about storage and stability. We built experiments into our process where storage samples face cycles of hot, cold, and high humidity. EPS 2719 keeps its viscosity and avoids skinning or gelling, even after months of these tests. End users avoid clogs in pumps and sprayers; material that leaves our tanks pours the same whether it ships in winter or summer.
By eliminating formaldehyde donors and optimizing for biocide stability, we have reduced health risks both during production and application. Our technical department works with raw material providers, but we also invest in independent verification to ensure nothing slips by. Batch records and retention samples back up every shipment.
Paint manufacturers bring plenty of tough questions to the table. Consistency across batches ranks near the top. From what we see, EPS 2719 keeps rheology in check during scale-up. Fillers and colored pigments disperse smoothly, with less agitation energy compared to older resins. Shear-thinning properties are stable, which helps during both filling and application. This predictability matters on high-speed production lines where downtime from clogging or settling means lost revenue.
Formulators report strong binder-pigment interaction, with fewer issues related to foam or grit. The resin doesn’t overreact when combined with defoamers, thickeners, or other modifiers. Less troubleshooting means more working time for innovation and color development, not just problem-solving.
Curing speed and water resistance live up to lab promises during field use. Paints based on EPS 2719 can handle early rain or condensate stress better than typical acrylics. This reduces risk of surface defects and job-site delays. Maintenance teams notice that repaints over EPS 2719-based coatings adhere better and require less surface prep, saving labor and cutting waste.
We work closely with customers to fine-tune the level of gloss, hardness, and flexibility that fits their market. By keeping our manufacturing plant open to visits, we host field engineers and chemists who want to see real production in action. This has led to enhancements based directly on what end-users observe, closing the loop from plant to jobsite and back again.
Our chemists and product managers recognize that regulations only go in one direction—stricter. To future-proof both our business and our clients’, we don’t just meet current VOC thresholds. We analyze trends in global and regional policy, taking a proactive stance in redesigning formulations and upgrading technology ahead of deadlines.
EPS 2719 comes from a line of resins manufactured with energy and resource usage in mind. We recover process water, minimize waste, and introduce closed-loop purification steps wherever viable. No process is ever finished; production data is reviewed weekly to spot trends in emissions, effluent, or raw material efficiency.
Most buyers care about how materials perform in the real world but increasingly want to know the upstream footprint as well. We give transparent documentation on raw material sources and environmental impact, going beyond regulatory demands. Independent audits verify this data, which our technical service staff will share with serious partners.
Efficiency isn’t just about the plant or our supply line. By increasing the solids content of EPS 2719, paint makers ship less water, lower transportation costs, and save energy during spray and dry cycles. For those developing new lines of low-emission architectural coatings, EPS 2719 gives a proven route to compliance while keeping performance high.
Being a manufacturer means never losing touch with actual users of our resin. Paint technicians, project managers, and applicators give us their unfiltered opinions. This feedback has driven improvements in EPS 2719’s freeze-thaw stability, flow, and recovery—additives alone don’t solve these problems, so we reinforce the core emulsion chemistry itself.
Questions about compatibility and troubleshooting come straight to our technical team, not through layers of reseller bureaucracy. We set up joint development labs, run pilot batches, and test custom blends. Issues get solved alongside our partners, using the same resin they will eventually scale up.
Some users aim for high-gloss kitchen and bath paints, others focus on low-sheen or matte for schools and offices. EPS 2719 keeps flexibility for both. By supplying the same quality resin that we use in our own reference coatings, we help customers avoid the pain points of uncontrolled composition or inconsistent batching.
Real process experience beats textbook advice. Once EPS 2719 leaves our plant, we advise customers to think beyond “ideal” storage conditions. The resin sits stably for months without forming skin or lumps, even in non-airconditioned warehouses. Sediment, if any forms after extreme storage abuse, can be redispersed with mild agitation. This eliminates waste and reduces disposal costs, especially critical when material demand runs close to supply.
Transport goes smoothly; even in the roughest seasons, the emulsion resists separation or viscosity drop-off. Pumps and pipes stay cleaner than with certain competitor products, lowering maintenance bills. Lines can switch back and forth between EPS 2719 and other water-based materials without danger of contamination.
From a processor’s perspective, ease of cleaning ranks highly. Our resin washes easily from mixing tanks and lines, cutting rinsing water needs. Field workers handling clean-up and rework jobs notice the difference, reporting fewer complaints of sticky residue.
Continuous improvement drives our factory floor and lab. Markets demand new properties—better stain resistance, lower temperature film formation, or ultra-rapid drying. Our R&D team invests much of its energy in expanding the utility of EPS 2719 for new challenges. Pilot-scale reactors let us run side-by-side batches to test incremental recipe changes, and our customers often help select new targets for product upgrades.
Collaborative work with external partners—architects, specifiers, industrial end-users—keeps us grounded. We’ve learned that pushing resin development in isolation misses out on the insights that only daily users can give. Open lines of communication help detect hidden issues and opportunities for innovation, which turn into concrete improvements in material quality and processing.
In the years since EPS 2719’s introduction, we have handled new demands for compatibility with antimicrobial agents, enhanced surface slip, improved touch-up properties, and support for new pigment technologies. Each upgrade and new variant is tracked via customer field trials and paired with detailed process metrics. This feedback loop guards against surprises or slow declines in quality.
EPS 2719 speaks for itself through its long record in actual production and field use. Its chemistry came out of decades of hands-on manufacturing problems, not abstract design promises. End-users rely on the resin’s stable properties, compliance, and processing ease. Our approach focuses on real challenges—tough substrates, changing weather, regulatory curveballs, and application speed—and turns them into new product features, guided by the science and craft of acrylic emulsion making.
Applications in construction, manufacturing, and maintenance continue to expand as customers look for proven reliability and steady performance. The story of EPS 2719 isn’t finished. Each round of feedback and field data shapes new manufacturing targets, driving progressive change on the plant floor and in end-user satisfaction. As the regulatory and technical landscape advances, we stand ready to keep tuning and optimizing the resin to meet whatever comes next.
