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HS Code |
450989 |
| Product Name | Uradil SZ258 G3-70 Waterborne Alkyd Resin |
| Type | Waterborne alkyd resin |
| Appearance | Clear to slightly hazy yellowish liquid |
| Solid Content | 70% |
| Solvent | Water |
| Acid Value | 35 - 45 mg KOH/g |
| Viscosity 23c | 8000 - 16000 mPa·s |
| Ph | 7.5 - 9.0 |
| Density 20c | 1.12 g/cm³ |
| Film Forming Temperature | Approx. 10°C |
| Storage Stability | 12 months at 5-30°C in original, unopened container |
As an accredited Uradil SZ258 G3-70 Waterborne Alkyd Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The Uradil SZ258 G3-70 Waterborne Alkyd Resin is packaged in a 200 kg blue HDPE drum, clearly labeled for safety. |
| Container Loading (20′ FCL) | **Container Loading (20′ FCL):** Approximately 16–18 metric tons of Uradil SZ258 G3-70 Waterborne Alkyd Resin packed in drums or IBCs per 20′ container. |
| Shipping | **Shipping for Uradil SZ258 G3-70 Waterborne Alkyd Resin:** Uradil SZ258 G3-70 is typically shipped in tightly sealed, labeled drums or IBC containers to prevent contamination and leakage. It should be transported upright, protected from freezing and excessive heat. All handling must comply with local chemical transport regulations and the product’s Safety Data Sheet (SDS) guidelines. |
| Storage | Uradil SZ258 G3-70 Waterborne Alkyd Resin should be stored in tightly sealed containers at 5–30°C, away from direct sunlight, frost, and sources of ignition. Ensure good ventilation in the storage area to prevent buildup of vapors. Avoid excessive heat and keep away from incompatible substances. Stir well before use and always protect from freezing to maintain product stability. |
| Shelf Life | Uradil SZ258 G3-70 Waterborne Alkyd Resin has a shelf life of 12 months if stored in unopened, original containers. |
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Viscosity: Uradil SZ258 G3-70 Waterborne Alkyd Resin with a viscosity of 3000–5000 mPa·s is used in industrial protective coatings, where it ensures smooth application and uniform film formation. Solids Content: Uradil SZ258 G3-70 Waterborne Alkyd Resin with 70% solids content is utilized in wood furniture finishes, where it provides enhanced build and high gloss. Particle Size: Uradil SZ258 G3-70 Waterborne Alkyd Resin with a particle size below 1 micron is employed in metal primer formulations, where it offers superior substrate penetration and adhesion. pH Value: Uradil SZ258 G3-70 Waterborne Alkyd Resin at a pH of 7.5 is applied in waterborne automotive refinish paints, where it delivers stable dispersion and minimizes corrosion risk. VOC Content: Uradil SZ258 G3-70 Waterborne Alkyd Resin with less than 50 g/L VOC is used in interior wall paints, where it enables compliance with low-emission environmental regulations. Gloss Level: Uradil SZ258 G3-70 Waterborne Alkyd Resin achieving 85 GU at 60° is chosen for decorative topcoats, where it imparts a high-gloss, durable finish. Drying Time: Uradil SZ258 G3-70 Waterborne Alkyd Resin with a drying time of less than 60 minutes is utilized in quick-turnaround maintenance coatings, where it reduces project downtime. Weather Resistance: Uradil SZ258 G3-70 Waterborne Alkyd Resin exhibiting strong UV stability is used in outdoor architectural coatings, where it ensures long-term color retention and resistance to chalking. Adhesion Strength: Uradil SZ258 G3-70 Waterborne Alkyd Resin demonstrating adhesion greater than 5 MPa is applied on galvanized steel surfaces, where it enhances coating robustness and substrate bonding. Flexibility: Uradil SZ258 G3-70 Waterborne Alkyd Resin with flexibility exceeding 3 mm (Erichsen value) is used in coil coatings, where it maintains crack-free performance under deformation. |
Competitive Uradil SZ258 G3-70 Waterborne Alkyd 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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As a chemical manufacturer, day-to-day work at our plant revolves around understanding how material science reshapes daily life and industry. We approach resin development from the ground up, experimenting, tweaking, and reformulating. Over years of working directly with alkyds, we've seen every twist of regulation and every jump in user safety expectations. The push towards more sustainable coatings now isn’t just about keeping up with trends. At its core, it’s about solving the problems that businesses face on a production line and that applicators face with their hands and time. Uradil SZ258 G3-70 Waterborne Alkyd Resin grew out of such real-world needs.
Traditional alkyds enjoyed a long reign because they deliver in toughness, gloss, and workable open times. But high solvent use put them in the crosshairs of producers and regulators. We spent many hours in our pilot labs and large-scale reactors trying to find waterborne resins that could compete—without compromise. Uradil SZ258 G3-70 brings a new balance: alkyds’ well-known durability, now in a waterborne format. Through years working with plant operators and R&D chemists, we understand that replacing solvent-based products only works if the new resin actually handles real-world abuse. In manufacturing settings, there’s no room for theory that comes apart in practice.
In our shop, these changes matter for daily workflow. Fewer hazardous emissions mean safer conditions in our own facilities. No one enjoys dealing with volatile organic compounds up close, from warehouse packing to waste disposal. That change extends downstream as jobsites, product warehouses, or even retail paint stores benefit from better air quality and an easier cleanup.
We produce Uradil SZ258 G3-70 Waterborne Alkyd Resin at a consistent 70% solid content. Over the years, our customers have told us what matters: achieving target film properties while cutting unnecessary water or filler additions. Years ago, paint makers shared that every additional percent in solids can mean less transport cost and reduced storage hassles—a surprising impact few outsiders realize until they move drums by the ton. At the plant level, employees love faster drying schedules and simplified cleaning routines, and both tie directly to the new resin structure we’ve produced.
The low VOC content of Uradil SZ258 G3-70 makes a strong difference for any producer facing new environmental rules. For many regions, regulations keep tightening, and our chemists built this resin to run below many of those evolving thresholds. Less VOC means smoother permit renewals, easier product labelling, and a better chance of keeping a product line open even as rules change.
Manufacturers ask how this alkyd manages surface flow and adhesion. Decades of resin work show that surface wetting, film formation, and block resistance aren’t just spec sheet tests—they’re the difference between production stops and smooth, predictable output. We’ve pressed Uradil SZ258 G3-70 in demanding industrial test conditions: steel, wood, plastic composites, and more, knowing every substrate comes with different challenges in real life, not just in the lab.
We test Uradil SZ258 G3-70 day after day on typical industrial coatings lines. Our own product evaluation routines mimic real manufacturing cycles: mixing, high-shear blending, and storage. The resin handles well across a variety of application methods, from standard brushing to spraying. In regular shop talk, this means painters run through a full working shift without needing retraining or specialized gear, an important point for any plant manager watching the bottom line.
Customers in metal fabrication rely on the toughness of alkyd films on both interior and exterior surfaces. Furniture makers use the product to achieve that sought-after combination of gloss and resistance to everyday scratches or household chemicals. In industrial equipment production, where machine housings and fabricated parts need protection and appeal, our resin dries hard and smooth. Even shop floors that face forklift traffic benefit from this resin’s consistent curing and resistance performance.
The switch to waterborne chemistry means cleanup time drops significantly. In every plant, time saved on cleaning translates to higher throughput. Old alkyds demanded extended downtime or harsh solvents; now, operators tell us their teams spend more time coating and less time prepping tanks or equipment.
The fundamental strength of Uradil SZ258 G3-70 lies in how it blends traditional alkyd backbone chemistry with the direct dispersibility of modern waterborne systems. Many waterborne alkyds out there still require co-solvent assists or special pH buffers. We formulated this model to go directly into water; that’s a design decision, not an afterthought, and it took years of batch work to get there.
Our experience shows that plant operators and R&D laboratories appreciate the clarity of a single-package waterborne system—no need to juggle complicated premixes or secondary components. Painting contractors and product users tell us they want one container, one resin, and straightforward mixing processes. It’s a feedback loop between our manufacturing plant and the application floor that has shaped every new iteration of this resin.
The film toughness, gloss retention, and resistance to yellowing keep up with or beat older solvent systems in direct, side-by-side comparison, based on trials our technical service staff runs in-house and in customer plants. This result comes not just from core resin chemistry, but also from an understanding of what real assembly lines demand: reliability, minimized rework, and ease of troubleshooting.
In coatings designed for the industrial sector, impact and abrasion resistance tell the true story, not theoretical numbers. Uradil SZ258 G3-70 consistently produces finishes that handle bumps, scratches, and cleaning solvents. Our internal testing procedures, built on tens of thousands of square meters coated each year, prove out this performance, and we welcome customers to visit and inspect results for themselves.
Switching to waterborne resins affects more than just environmental paperwork—it transforms the manufacturing floor itself. During plant tours with visiting partners, we often hear concern about solvent odors and long-term exposure for workers. Adopting Uradil SZ258 G3-70 allows direct reduction in workplace VOCs. Even storage and waste-handling teams see improvements, since waterborne drums carry lower hazard risks and fewer fire code burdens.
For many of our customers, these improvements reach all the way to their clients. Finished goods that use this resin emit less odor and provide a safer experience in warehouses, households, or retail spaces. Our technical support department spends less time fielding calls about environmental or shipping compliance, freeing them to focus on product support and process improvements.
We’re engineers and chemists with a day-to-day view of these conditions: we see directly how a well-designed waterborne alkyd changes plant air quality, warehouse safety drills, and loading dock routines. Trust grows not from slogans, but from measurable improvements. Our own monitoring data, collected across several plant buildings, shows marked drops in hazardous emission levels compared to legacy manufacturing lines.
Handling Uradil SZ258 G3-70 on a bulk scale looks different from many legacy alkyds. Our production teams note changes in pump selection, blending times, and cleaning protocols. Water compatibility simplifies drum handling, and maintenance teams have noticed less residue in pipes, valves, and mixing tanks. Not every waterborne alkyd runs as clean as this one; we know because we tested dozens of comparator products during scale-up and regularly analyze our own batches for spot contamination.
Packaging also reflects these new conditions. We found that shelf life and storage stability hold steady even for drums left for months in less-than-ideal warehouse conditions. Our logistics staff have reduced incidents of leaks or drum damage, thanks to the resin’s balanced viscosity and stable phase separation. A deep understanding of how temperature swings and long-term storage affect performance shows up only after years in manufacturing, as we have learned keeping watch over tens of thousands of liters in inventory.
Direct relationships with large-scale paint producers and OEMs keep pushing our own teams for better solutions. It’s not just about being on spec; it’s about keeping up with emerging application technologies, whether it’s robotic arms spraying precise film thicknesses or conveyor lines moving at speeds that would have broken old resins. Those on the application floor have high expectations for sag resistance, leveling, and stack time. We spend as much time listening as talking, drawing insight from production incidents, lab feedback, or even end user complaints. That firsthand loop of developing, producing, and revisiting product performance guides every modification our technical staff makes in subsequent batches.
We welcome customers to request in-plant demonstrations or to ship out sample drums for extended evaluation. We believe close communication—engineer to engineer, chemist to formulator—matters. Only through that exchange can we keep tightening resin properties, troubleshoot batch variability, and adapt to new raw materials. Backed by analytical data and frontline reports, we use every scrap of feedback to improve not just Uradil SZ258 G3-70 but future waterborne alkyd iterations too.
Every batch of Uradil SZ258 G3-70 represents hundreds of test blends. Our research staff remembers early failures as well as key breakthroughs: how small changes to polymer backbone design altered drying speed, film hardness, and water resistance. We track every resin batch closely, through extensive physical and chemical testing routines that include accelerated shelf life, viscosity cycles, freeze-thaw stability, and application testing on a wide range of substrates.
Our collective experience has shown that achieving both fast drying and durable performance in a waterborne system takes more than just emulsifying a solvent-based resin. It takes molecular-level adjustments to acid numbers, oil lengths, and backbone crosslinking. Our process engineers adjust parameters with a direct eye for what will ease scale-up headaches and bulk shipment variability, both critical once production moves beyond the pilot reactor.
More than anything, successful alkyd development means respecting the user’s time and resources. Performance in the field carries more weight than anything in our spreadsheets. Real users don’t tolerate unexpected yellowing, tacky surfaces, or cold weather failures. After decades supplying coatings raw materials, we know our own reputation depends on catching those issues before a drum ever leaves the loading dock.
Our direct relationships with application chemists and plant engineers mean we get the practical details that don’t show up in technical literature. When a customer calls with a color drift or a gloss holdout issue, our team responds fast, often on-site. Because we make the resin ourselves, we hold the full story behind the formulation, the batch process, and the final product. This level of transparency builds mutual trust and accelerates problem-solving. Our field teams make themselves available for not just support calls, but face-to-face troubleshooting, training, and process evaluation—all lessons taken from years building and running our own manufacturing lines.
We see firsthand that speed of technical response, honesty about limitations, and a willingness to listen bring better long-term results than generic marketing or distant distribution networks. Advances in resin design come directly from feedback and shared experience, not just numbers on spec sheets.
We invest time and resources in anticipating future needs as well. As regulators clamp down harder on environmental impacts, and as users look for both higher performance and safer working environments, our R&D staff keeps exploring new modifications: bio-based content, next-generation additives for improved substrate wetting, and even hybrid systems that combine alkyds with other high-performance binders. Our plant’s close management of raw material sourcing, reacted batch parameters, and continuous quality checks ensures we stay on the leading edge of change—no shortcut replaces the value of our own manufacturing experience.
Looking ahead, we know that resin innovation doesn’t pause. Every time a new restriction on solvent emissions or new health data is published, the coatings industry must adapt. Because we build Uradil SZ258 G3-70 in our own facility, we control every variable—batch energy use, catalyst selection, resin chain architecture—each carefully monitored by operators with years on the line.
In meetings with both long-term partners and new customers, we share full transparency into our material choices and plant practices. No unexplained ingredient changes, no batch-to-batch mysteries. Our technical sheets and safety information stem from firsthand experience, not generic data aggregation. As market needs change, we remain committed to working side by side with OEMs and coatings formulators to solve the next challenge, deliver new performance improvements, and raise the standard for waterborne alkyd technology.
Our journey with Uradil SZ258 G3-70 Waterborne Alkyd Resin is built on real experience as direct manufacturers, not re-packagers or marketers. The product represents laboratory research translated into scalable, practical solutions—always grounded in the needs of people who face practical production, formulation, and application problems. Coatings users deserve both technical excellence and responsive support, from a partner that understands their priorities from the inside out.
We continue to refine Uradil SZ258 G3-70 so it does more than just comply with the latest regulations—it consistently delivers real results on the production line and in the finished product. The future of alkyd resins depends on practical, measurable change, shaped by manufacturers who take genuine responsibility for chemistry, process, and performance. Every batch we make stands as our commitment to quality, reliability, and direct support—values proven not in advertising claims, but in the daily work of modern chemical manufacturing.
