|
HS Code |
163318 |
| Appearance | milky white liquid |
| Solid Content | 40±2% |
| Ph Value | 7-9 |
| Viscosity 25c | 100-500 mPa·s |
| Density 25c | 1.05-1.10 g/cm3 |
| Film Hardness | ≥2H |
| Adhesion Grade | ≤1 |
| Water Resistance | ≥240 hours (no blistering or peeling) |
| Heat Resistance | ≥300°C (no significant change) |
| Storage Stability | 6 months at 5-35°C in sealed containers |
As an accredited HYR-2965 Waterborne High Temperature Resistant Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | HYR-2965 Waterborne High Temperature Resistant Resin is packaged in sturdy 25kg blue plastic drums, ensuring safe transport and storage. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): HYR-2965 Waterborne High Temperature Resistant Resin is loaded at 16 tons per 20′ FCL, packed in 200kg drums. |
| Shipping | HYR-2965 Waterborne High Temperature Resistant Resin is shipped in tightly sealed, corrosion-resistant containers to ensure product integrity. Containers are clearly labeled and securely packed to prevent leaks or contamination. Shipping complies with chemical transport regulations, and temperature conditions are maintained to preserve resin stability throughout transit and storage. |
| Storage | HYR-2965 Waterborne High Temperature Resistant Resin should be stored in tightly sealed, original containers in a cool, dry, and well-ventilated area away from direct sunlight and sources of heat or ignition. Avoid freezing and keep temperatures between 5°C and 35°C. Prevent contamination and ensure containers are clearly labeled. Keep out of reach of unauthorized personnel and incompatible substances. |
| Shelf Life | HYR-2965 Waterborne High Temperature Resistant Resin has a shelf life of 12 months when stored in a cool, dry, sealed container. |
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Thermal stability: HYR-2965 Waterborne High Temperature Resistant Resin with a thermal stability of 350°C is used in industrial oven coatings, where it ensures long-term film integrity at elevated temperatures. Viscosity: HYR-2965 Waterborne High Temperature Resistant Resin with a viscosity of 600-900 mPa·s is used in spray-applied pipeline coatings, where it allows for uniform coverage and superior adhesion. Particle size: HYR-2965 Waterborne High Temperature Resistant Resin with a particle size less than 1 micron is used in protective metal coatings, where it provides a smooth surface finish and excellent barrier properties. pH value: HYR-2965 Waterborne High Temperature Resistant Resin with a pH of 8.0-9.0 is used in automotive underbody coatings, where it promotes environmentally friendly processing and corrosion protection. Solids content: HYR-2965 Waterborne High Temperature Resistant Resin with 45% solids content is used in heat exchangers coating applications, where it delivers high film build and durability. Adhesion strength: HYR-2965 Waterborne High Temperature Resistant Resin with an adhesion strength >5 MPa is used in electronic component encapsulation, where it ensures reliable bonding under thermal cycling conditions. Weather resistance: HYR-2965 Waterborne High Temperature Resistant Resin with proven UV and weather resistance is used in exterior grill coatings, where it maintains color and film integrity over prolonged outdoor exposure. Chemical resistance: HYR-2965 Waterborne High Temperature Resistant Resin with high chemical resistance is used in laboratory equipment coatings, where it prevents degradation from harsh cleaning agents and solvents. |
Competitive HYR-2965 Waterborne High Temperature Resistant 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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Email: sales9@bouling-chem.com
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Making resins that last under harsh conditions means more than hitting numbers on a data sheet. Years of facing real handling issues in our manufacturing halls drove us to develop HYR-2965 Waterborne High Temperature Resistant Resin. Each batch reflects hands-on experience, lessons learned from failed blends, and feedback from customers who work in some of the toughest environments.
Resin doesn’t just need to stay on a surface. It’s got to lock on, protect, and resist breakdown when heat gets serious. Factory floors get hotter, engines run tighter, and end-users are tired of coatings that just don’t keep pace. HYR-2965 came out of this need. Our team spent many nights recalibrating our reactors, dialing in the chemistry to tolerate heat as high as 250℃ for extended periods, all without bubbling, yellowing, or softening.
The chemical backbone uses select copolymer building blocks known for crosslinking stability. During tests, we’ve seen standard acrylic-based resins soften and discolor at 180℃, but HYR-2965 maintained surface integrity and gloss. We track this performance not just in the lab, but on actual production parts for cookware, automotive components, and home appliances. Manufacturers return to us and say their products make it through more heating cycles and stress testing than before.
Before waterborne resins like HYR-2965, high temp meant big loads of solvents, odors, and VOC worries. Our waterborne formulation uses a stable emulsion process that puts an end to heavy emissions. We made sure HYR-2965 applies and cures without the frustration that plagued older water-based resins—no streaks, no uneven film, strong adhesion to metals, ceramics, and composites.
People actually working in paint shops told us their biggest gripe with waterborne resins was unpredictable flow and dry times. Our team reworked flow modifiers and stabilizers in-house until we could lay down predictable, pinhole-free coats using standard spray and dip techniques. This lowers worker exposure to fumes and helps companies meet strict environmental controls.
Repeat orders only happen if the material stays the same month after month. We run full-batch checks for viscosity, pH, particle size, and solid content instead of spot checks. Every batch goes through an accelerated oven test, mimicking cycles of real end-use: heat it up, cool it down, do it again, and check for any changes. Failures lead straight back to our chemists for root-cause analysis and raw material trace-back.
Waterborne technology usually swings in consistency, but HYR-2965 uses a robust dispersion process that handles shipping, storage, and minor temperature swings. Customers have told us of problems with other waterborne resins gelling after cold transport. We salt-screen every shipment to ensure stability, saving our clients from the headache of ruined inventory.
Investing in real-world tests beats relying on a spec sheet. We work with cookware fabricators who bake on the resin and then put their coated aluminum pans directly onto open flames and induction heaters. The resin keeps its structure—no flaking, no odors even after repeated use. Automotive partners push the material onto engine covers and valve components, where it faces both heat and vibration. In these conditions, it resists peeling and remains flexible enough to avoid cracking from thermal shock.
We also see HYR-2965 adopted in household electronics to protect parts near transformers and heating elements. The demand in appliances for a waterborne, odorless resin that resists discoloration has never been higher, especially since end customers are sensitive to kitchen and household odors. Makers of food-service equipment report fewer warranty claims for burnt or blistered surfaces after switching to our product.
You won’t see HYR-2965 chipping from a pan edge or yellowing under a stove’s constant flame. Its waterborne nature doesn’t mean we sacrificed resilience—actual field tests show corrosion resistance on par with top-end solvent-based rivals. When customers apply it to exhaust parts or under-hood electrical housing, they report strong adhesion even after salt spray and repeated temperature cycling.
Paint shops running busy lines value the resin for its quick flash-off and recoat properties. If a line has to stop mid-batch, there’s less risk of film defects when restarting. Cleaning up after coating jobs gets easier—no lingering solvent residues or hazardous waste fees.
In our early resin efforts, a lot of waterborne systems failed under continuous high heat, breaking down at seams or spreading unevenly. The key difference with HYR-2965 comes from the crosslinking system and the way we sequence our polymerization. Rather than blending off-the-shelf emulsions, we build the backbone fresh for each run. This approach gives a resin with genuine heat and scratch resistance, not just water solubility claims.
Competing products can look similar on paper, with identical solids and pH. Many fall short after a few thermal cycles. One thing that surprised us was seeing off-brands bubble and lose gloss in under ten heat cycles, while ours was still going strong past thirty. This durability comes from our unique blend of hard and flexible segments in the backbone—an approach born out of weeks refining ratios and curing times in real ovens, not just beakers.
Odor is another headache with most waterborne high temperature paints. Early test panels from other suppliers still gave off acrid smells during use—a big problem in closed kitchens or indoor equipment. HYR-2965’s clean curing system nearly eliminates volatile amines and aldehydes, even under heat, making it more suitable for enclosed spaces or consumer-facing goods.
Supply-chain stories matter more now than ever. We source monomers and additives from trusted partners with long-term contracts, making our production less vulnerable to global price swings. We keep extra safety stock of key raw materials so a customs delay in one country doesn’t hold up a batch, which means our customers rarely experience line-down events. Quality doesn’t just come from chemistry, but also from knowing the flow and planning for the unexpected.
Our process engineers keep production logs by shift, noting unusual smells, color shifts, or flow problems—catching quality deviations before they ever reach the filling line. Traceability is built in, down to the lot of every bag of powder or drum of additive. Any outlier leads to a process check, and we keep small retain samples of every batch for two years.
Working with customers hands-on, we’ve learned the value of direct feedback over survey forms. Many coating lines transitioning from solvent to waterborne admit to early skepticism—concerns about drying times, adhesion, and chemical resistance. A cookware manufacturer once sent us photos of failed competitor resin, with blisters exposing metal after only two months. After switching to HYR-2965, their field returns dropped by over 60% in the next year.
Small decorators running multi-shift operations tell us the clean-up is much faster, letting them reset between color changes without extensive flushing. That keeps their water use and disposal bills lower. Some longtime industrial clients even trialed it on odd substrates—laminated glass, nickel-plated parts—reporting strong results with no special handling or surface treatments.
More regions are tightening rules on VOC emissions and hazardous waste. We worked closely with compliance officers and environmental specialists during HYR-2965’s development to keep VOC readings well below legal limits—opening up export opportunities to regions with demanding standards. Our customers cut hazardous emissions reports and score better on audits, making their sustainability claims easy to back up.
Cleaning water after use comes easier. Other resins can leave yellow or milky residues that clog drums and pump lines, requiring expensive flushes. Ours leaves a much lighter trace, breaking down in standard wastewater systems without needing complex neutralization steps.
Some resins disappoint by gumming up pumps or settling during shipment. We designed HYR-2965 with a stable particle size, checked with dynamic light scattering, and tuned the storage package to survive real-world logistics. Our tanks see everything from monsoon humidity to cold snaps, so we test for gelation and separation in worst-case scenarios, not just standard lab conditions.
Long-term partners tap our technical staff directly instead of chasing down salespeople for answers. Whether it’s suggesting tweaks to cure cycles or troubleshooting a batch with odd film appearance, our chemists follow jobs to the finish line. Real users don’t want to hear excuses—they want a fix. Fast. We often ship test kits or visit production lines when a customer hits a snag, guiding in-person rather than by phone.
The performance bar keeps rising. Markets shift: home appliances, electric vehicles, and even aerospace suppliers now look to waterborne resins for environmental appeal without downtime. HYR-2965 started as a solution for basic cookware coatings, but its reach now includes public transportation interiors, power tools, and even electronic enclosures that live near constant heat.
Designers push for bolder colors and textures, making UV resistance and fade protection essential. While basic high-heat resins protect from burn, our formulation resists minor scratching and stays glossy season after season. Maintenance crews prefer products needing less reapplication, and HYR-2965 answers this call.
Decades of field experience remind us that listening to operators, not just specifiers, drives real improvement. Each complaint or batch failure sparks a meeting—even small blisters or color quirks. That’s why HYR-2965 gets regular updating as raw material science evolves. Ion-exchange grades, new stabilizers, and safer additives—all funnel into future versions.
We’ve joined with universities to explore next-generation waterborne high-temp resins. Our pilot reactors see weekly recipes adjusted and retested. Sometimes the biggest improvement comes from a minor tweak: a better dispersant, a smarter curing aid, or a cleaner monomer source. Staying at the front means admitting the job is never done.
There’s no shortcut to making a resin that thrives under harsh conditions while meeting rising environmental responsibility. HYR-2965 Waterborne High Temperature Resistant Resin evolved not out of theory, but out of shopfloor necessity and direct exposure to what works—and what fails—in the field. As a manufacturer, we know the frustrations hidden behind every rejected batch or warranty claim, and our real success comes through solving those pain points before our partners ever see them.
We stand by HYR-2965 not because it matches a technical spec, but because we see it pass every challenge thrown at it on production lines, in end-user homes, and even after months of hard use. Our approach will always be shaped by direct involvement, willingness to adapt, and dedication to building resins that don’t just claim high-temperature resistance, but prove it every day.
