|
HS Code |
279107 |
| Appearance | Milky white liquid |
| Type | Waterborne solid epoxy resin dispersion |
| Solid Content | 48-52% |
| Epoxy Equivalent Weight | 1100-1400 g/eq |
| Viscosity 25c | 1500-2500 mPa·s |
| Ph Value | 6.0-8.0 |
| Particle Size | 0.3-1.0 µm |
| Density | 1.05-1.15 g/cm³ |
| Storage Stability | 12 months at 5-35°C |
| Film Forming Temperature | Above 15°C |
As an accredited Waterborne Epoxy Resin 2075 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Waterborne Epoxy Resin 2075 is packaged in a 20kg blue HDPE drum featuring a secure screw cap and clear product labeling. |
| Container Loading (20′ FCL) | Waterborne Epoxy Resin 2075 is shipped in 20′ FCL containers, typically packed in 200kg drums, ensuring safe transportation. |
| Shipping | Waterborne Epoxy Resin 2075 is typically shipped in sealed, labeled drums or pails to prevent contamination and ensure safety. Store and transport in a cool, dry, and well-ventilated area. Avoid freezing temperatures. Adhere to local regulations for handling chemicals, and consult the Safety Data Sheet (SDS) for specific shipping and storage guidelines. |
| Storage | Waterborne Epoxy Resin 2075 should be stored in tightly sealed containers at temperatures between 5–35°C, away from direct sunlight, heat sources, and freezing conditions. Ensure storage in a well-ventilated, dry area, separated from incompatible materials such as strong acids or oxidizers. Prevent contamination and moisture ingress. Use only clean, dedicated storage containers, and clearly label all containers for safety and traceability. |
| Shelf Life | Waterborne Epoxy Resin 2075 has a shelf life of 12 months when stored in unopened containers at 5-35°C, away from sunlight. |
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Purity 99%: Waterborne Epoxy Resin 2075 with 99% purity is used in automotive coating systems, where it delivers superior chemical resistance and finish uniformity. Viscosity 1200 mPa·s: Waterborne Epoxy Resin 2075 at 1200 mPa·s viscosity is used in industrial floor coatings, where it enhances self-leveling capability and smooth surface formation. Molecular Weight 3800 g/mol: Waterborne Epoxy Resin 2075 with molecular weight 3800 g/mol is used in electronics encapsulation, where it provides increased dielectric strength and dimensional stability. Particle Size <2 µm: Waterborne Epoxy Resin 2075 with particle size less than 2 µm is used in anti-corrosion primers for steel structures, where it improves substrate penetration and rust inhibition. Stability Temperature 150°C: Waterborne Epoxy Resin 2075 with stability temperature of 150°C is used in pipe lining applications, where it ensures long-term heat resistance and prevents coating degradation. Solids Content 56%: Waterborne Epoxy Resin 2075 with a solids content of 56% is used in adhesive formulations, where it promotes stronger bonding and reduced shrinkage during cure. pH 7.2: Waterborne Epoxy Resin 2075 at pH 7.2 is used in protective concrete sealants, where it allows compatibility with alkaline substrates and prevents efflorescence. |
Competitive Waterborne Epoxy Resin 2075 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
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As a chemical manufacturer with years spent honing the production of waterborne epoxy resins, we see industry expectations shift in real-time. The development of Waterborne Epoxy Resin 2075 reflects those changes. This isn’t just another product in the catalog. Every ton we craft comes out of our plant with measurable improvements based on feedback from real users, painters, engineers, and partners who manage real-life coatings challenges in diverse environments.
Waterborne Epoxy Resin 2075 was built for projects that demand toughness but can’t risk the hazards found in high-VOC solvent-based systems. This model (2075) brings together a low-emission formula, reliable film formation, and practical workability for manufacturers, contractors, and facility managers looking for sustainable solutions. Our team tracks every batch for viscosity, color, solid content, and curing time to ensure the consistency that batch and process operators count on.
We receive questions about performance across multiple substrates. Waterborne Epoxy Resin 2075 bonds well to concrete, steel, aluminum, and even previously coated surfaces. On the shop floor, surfaces get exposed to splash zones, foot traffic, forklifts, chemical cleaning cycles, and wide temperature swings. Over the years, tweaks in the backbone of 2075 helped it resist chipping, yellowing, and blistering even under aggressive cleaning regimens or accidental flooding.
Unlike some earlier waterborne epoxies, 2075 no longer requires high-temperature curing. It can cure at room temperature within a practical window for most factory or field applications. This difference matters for shop managers scheduling maintenance—no extra ovens or forced-drying infrastructure. Productivity gets a real boost.
Model 2075 clocks a medium molecular weight, tailored for brush, spray, or roller application in production settings or retrofit jobs. Our QA laboratory keeps the solid content in the standard range for industrial coatings—enough to build tough films without sacrificing ease of mixing or transfer. Viscosity stays manageable under varying mixing conditions, and the resin blends readily with water and common curing agents.
Whenever a customer reports process drift—a surprise in gloss, tack-free time, or hiding power—we audit the process parameters. Much of our progress on 2075’s current formula came after discovering that high humidity or ambient moisture can upset traditional resin ratios. We tweaked our emulsion technique and brought in polymer chemists to reformulate for more temperature and moisture stability. Regular roundtable meetings with application teams shaped these improvements.
Solvent-based resins make up most of the market’s legacy coatings, but they increase indoor air emissions and raise insurance risks. We don’t have to rely on secondary sources to understand why waterborne chemistry is growing. Walk through a conventional solvent-based shop at peak shift: the sharp smell, the constant vent fans, the routine mask-wearing. Switch to Waterborne Epoxy Resin 2075 and ventilation demands drop, workers report less skin and eye irritation, and plant compliance for emissions regulations becomes easier.
Emission reductions carry economic benefits. Lower air handling costs and smoother regulatory audits matter as much as purchase price. In our own operations, the switch to nonflammable waterborne chemistry made a clear difference in fire risk scores. Warehouses store Waterborne Epoxy Resin 2075 without the heightened restrictions needed for high-solvent materials, freeing up space and process flexibility.
Industrial floors reveal the truth about any coating. On power plants and logistics centers, the resin’s abrasion resistance undergoes the ultimate test: heavy foot traffic, loaded carts, and rolling pallets. Paint shops applying 2075 for direct-to-metal oxygenate the resin with a familiar feathering technique but notice fewer problems with sag or cratering during humid months. No need for frequent touch-ups or two-step recoating schedules. Shipyards apply our resin in ballast tanks, satisfied by chemical resistance and moisture barrier formation.
After chemical plants adopted 2075 for containment areas, their inspection logs showed lower rates of chalking and blistering after alkali or acid washes. Our technical support follows up with site maintenance, not marketing teams—if application teams flag a problem, it gets routed quickly to our R&D so new runs can fix weaknesses. During flooring projects in multi-level car parks, the quick re-coat times of 2075 prevented bottlenecks on active ramps, helping project supervisors keep up with city deadlines.
Older solvent-based resins build a hard, glossy film; they’re often unforgiving with moisture, odor, and hazardous waste. Customers using 2075 swap out those outdated formulas without giving up on surface protection or ease of application. Because this resin is free from heavy organic solvents, storage and transport encounter fewer restrictions. You won’t need to invest in new PPE or dedicate mixing rooms to manage exposure risk—a relief for smaller shops squeezed for space and regulatory patience.
Some legacy waterborne alternatives never built up enough resin film strength, especially in damp climates. Early adopters struggled with bubbling and dust pickup. We engineered 2075 to overcome those complaints. Throughout its development, we prioritized resin particle architecture, balancing particle size distribution and emulsion surfactant systems to avoid sticky or dusty surfaces. This approach delivers a smooth, hard film, reliable adhesion, and realistic pot life—features high-volume printers, can-coaters, and engineers regularly request.
Epoxy resin 2075 does not suffer from the haze or unevenness that plagued first-generation waterborne systems. Performance testing in our plant showed resistance to common warehouse chemicals such as glycols, dilute acids, and hydraulic oils. Customers found fewer surface defects after the first coat—one production manager reported nearly 10% time savings by skipping sanding and primer rework.
Technical support engineers know that every plant and jobsite creates its own unique problems. Coating thickness, ambient conditions, equipment choices—none stay fixed from one batch to the next. Direct calls from plant operators, written field reports, and after-the-fact “trouble tickets” become raw data for every model update. Waterborne Epoxy Resin 2075 was reworked more than half a dozen times within its first year to address these diverse challenges.
Production shift leaders in battery manufacturing needed resin that cured quickly but held up to electrolyte spills and cycle loading. Every batch they rejected due to softening or film separation became a case study for us. After a process overhaul, our QA tracked failure rates and surface characteristics, answering with a more resilient cross-linking density. Paper mills, worried about latex migration, pushed us to trial new surfactant blends. We tracked bubble counts and gloss in actual production lines, not just small lab pans. Each tweak followed next-day feedback.
Schools applying the resin for corridor floors welcomed the lower odor and shorter curing window; they could finish refurbishments overnight without disrupting daytime schedules. Municipal painting crews working on water supply stations reported that use of Waterborne Epoxy Resin 2075 let them avoid work stoppages during regulatory surprise checks—no flagged emissions, no hazardous waste tickets.
We have learned that even the best resin can fall short if users don’t know how to work it into their routine. Our in-house trainers schedule regular plant visits, walking job supervisors and operators through the latest formulation tips. These aren’t classroom lectures—crews get hands-on practice with real spray units under their daily conditions. Mismatches in mixing ratios, tank contamination, or ambient temperature variation often come up in the first trial runs. Technical trainers troubleshoot on the spot, feeding observations back to headquarters.
Common issues—like unexpected air bubbles, uneven gloss, or rolling marks—usually trace back to changes in site water pH, worn-out spray tips, or failure to measure ambient humidity. On the shop floor, it’s rarely “user error”—instead, job realities force quick improvisation. By visiting plants, tracking real usage data, and bringing site-based feedback to R&D meetings, we close the loop between design and delivery.
Environmental pressures keep growing. Air quality standards for VOCs grow tighter across North America, Europe, and much of Asia. Waterborne Epoxy Resin 2075 responds directly to this changing landscape. Hiring new chemists, expanding lab facilities, and investing in reactor scale-up proved worthwhile, not just for our production costs but for customers tracking regulatory compliance.
We track each regulation update—whether focused on paint shop disposal, storage permit changes, or indoor air monitoring—through direct industry participation, not just newsletters. Local governments reward shops using low-emission products with easier permits; project managers get credit for sustainability during competitive tenders.
The market no longer tolerates “smoke and mirrors” about green chemistry. Customers ask tough questions on supply chain transparency, plant energy usage, lifecycle cost, and long-term field results. We share our test results, open up lab and plant tours, and provide full traceability from raw material sourcing to every shift’s batch.
Scaling production to meet growing demand remains a daily challenge. As the popularity of waterborne systems rises, so do raw material demands. We keep close ties with upstream chemical producers to prevent supply disruptions. Every global event—a logistics delay, a raw material shortage—trickles down to the plant floor rapidly. Close supplier partnerships and contingency planning keep our lines moving even under unpredictable market pressure.
Education and outreach form another pressure point. Many contractors remember past generations of waterborne resin and may not trust they’ve improved. We lean on demonstration projects, sample jobsites, and collaborative pilot runs to overcome skepticism. Field days and site tours bring new users face-to-face with the latest batch, helping bridge the gap between skepticism and trust.
Once jobs wrap up, leftover material and cleanup bring their own issues. Waterborne Epoxy Resin 2075 simplifies routine disposal. Spills and overspray get diluted, washed, or steam cleaned with ordinary wastewater handling—no specialty solvents or incinerator fees. Plant waste streams test low on regulated contaminants. That changes plant economics as much as it improves environmental compliance.
Throughout our process, every drum and tote produced is returnable and reusable. Partnering with local recyclers, we collect used containers for thorough cleaning and recycling, cutting waste and maximizing value on both ends. Shops choosing 2075 often report fewer disposal headaches and faster site audit closures.
Innovation rarely happens in the lab alone. Shop-floor observations, daily struggle with shifting schedules, the pressure of delivering flaw-free applications under deadline—these shape our work just as much as chemical analysis. Waterborne Epoxy Resin 2075 may start as a code on a formulation sheet, but its evolution tells a different story. It has grown through constant dialogue with real users, shepherded by chemists who listen to what installers actually want. Every shift’s learning, every midnight trouble call, and every “lessons learned” after a failed batch—these helped us shape a resin that genuinely works in the field.
Customers trade stories about their toughest jobs: painting in winter with open doors, battling humidity in coastal plants, coating steel rebar before concrete pours. 2075 never became the finished product just from theory and specs. The best features come from understanding setbacks and chasing real improvements. Our resins are not just tested behind closed doors—project managers, maintenance leads, and shop workers help refine each production run so the results stand up under daily grind, not just lab gloss charts.
Plant managers making the switch to waterborne coatings often cite real reductions in downtime, permitting friction, and employee complaints about odor or irritation. On-site audits show drops in reportable emissions and hazardous waste. Contractors save time with faster drying and fewer rework cycles. The evidence points to a product shaped by field conditions—resin that delivers performance, safety, and cost savings, refined by hands-on experience.
Direct manufacturing experience taught us that product longevity, not just sales or appearances, is the ultimate measure. Waterborne Epoxy Resin 2075’s market share keeps growing because it holds up where it counts: under foot, under wheels, under tough conditions, project after project. Every run produced in our facility is informed by real-world demand—a product shaped and improved through genuine use, not catalog promises.
