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HS Code |
762444 |
| Product Name | Jing B60-70 Acrylic Latex Fireproof Coating |
| Type | Acrylic latex-based fireproof coating |
| Appearance | White or off-white viscous liquid |
| Application Method | Brush, roller, or spray |
| Drying Time Surface | 30 minutes at 25°C |
| Drying Time Full | 24 hours at 25°C |
| Fire Resistance Rating | Up to 2 hours (based on substrate and thickness) |
| Recommended Thickness Wet | 1.2 mm to 1.8 mm |
| Adhesion Strength | ≥ 1.0 MPa |
| Voc Content | < 50 g/L |
| Density | 1.3-1.5 g/cm³ |
| Storage Temperature | 5°C to 35°C |
| Shelf Life | 12 months in unopened containers |
| Substrate Compatibility | Steel, concrete, masonry, gypsum |
| Water Resistance | Good after curing |
As an accredited Jing B60-70 Acrylic Latex Fireproof Coating factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The Jing B60-70 Acrylic Latex Fireproof Coating is packaged in a sturdy 20kg white plastic bucket with bold red and blue labeling. |
| Shipping | The shipping of **Jing B60-70 Acrylic Latex Fireproof Coating** involves packaging in secure, sealed containers to prevent leakage. It is classified as non-hazardous but should be kept upright and protected from temperature extremes during transit. Ensure compliance with local regulations, and provide appropriate labeling and handling instructions to ensure safe delivery. |
| Storage | Jing B60-70 Acrylic Latex Fireproof Coating should be stored in tightly sealed original containers, away from direct sunlight, heat sources, and open flames. Keep in a cool, dry, well-ventilated area at temperatures between 5°C and 35°C. Avoid freezing conditions and contamination with incompatible materials. Ensure containers remain upright and clearly labeled to prevent accidental use or spillage. |
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Viscosity: Jing B60-70 Acrylic Latex Fireproof Coating with a viscosity of 3500 cps is used in structural steel protection in commercial buildings, where it ensures uniform film formation and optimal fire resistance. Solid Content: Jing B60-70 Acrylic Latex Fireproof Coating with a solid content of 68% is used in industrial facilities, where it maximizes dry film build and prolongs maintenance intervals. pH Value: Jing B60-70 Acrylic Latex Fireproof Coating with a pH value of 8.5 is used in HVAC duct applications, where it maintains chemical stability and prevents corrosion. Particle Size: Jing B60-70 Acrylic Latex Fireproof Coating with an average particle size of 2.5 µm is used in interior wall assemblies, where it delivers a smooth, even surface and consistent fire barrier coverage. Fire Resistance Time: Jing B60-70 Acrylic Latex Fireproof Coating with a certified fire resistance time of 120 minutes is used in high-rise office complexes, where it delays structural degradation in fire emergencies. Thermal Stability: Jing B60-70 Acrylic Latex Fireproof Coating with thermal stability up to 250°C is used in electrical cable trays, where it prevents loss of insulation and mitigates fire spread. VOC Content: Jing B60-70 Acrylic Latex Fireproof Coating with low VOC content below 35 g/L is used in schools and hospitals, where it provides a safer indoor environment and meets regulatory standards. Adhesion Strength: Jing B60-70 Acrylic Latex Fireproof Coating with an adhesion strength of 1.2 MPa is used in prefabricated concrete elements, where it ensures long-term coating durability and reliability. Drying Time: Jing B60-70 Acrylic Latex Fireproof Coating with a surface drying time of 60 minutes is used in onsite construction projects, where it accelerates installation schedules and reduces downtime. |
Competitive Jing B60-70 Acrylic Latex Fireproof Coating prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
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Tel: +8615365186327
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Walking factory lines and listening to customers for decades, we have learned which fireproof coatings fail and which endure real-world conditions. Jing B60-70 Acrylic Latex Fireproof Coating stands as the direct result of work between lab chemists, production engineers, and clients who measure safety in lives, equipment, and downtime avoided. Countless building inspectors, project managers, and safety officers trust coatings only after years of performance, not because of a large marketing push. Ours has met the mark again and again, especially in facilities where open flame, arc flash, or heat build-up come with the territory.
At the heart of the formulation sits a stable acrylic polymer latex, designed to disperse fire-retardant and smoke-suppressant ingredients evenly without separating or forming lumps. We started with acrylics refined to resist cracking, peeling, and degradation under sunlight and moisture—problems older vinyl or bituminous coatings never solved. Through steady development, the B60-70 blend reaches an ideal viscosity for both spray and brush, flowing over steel, concrete, and composite panels while holding enough body to stay where it’s needed most: corners, bolts, seams, and irregular openings.
We choose the acrylic backbone for its marriage of durability and flexibility. Traditional fireproof coatings based on alkyd or oil resins tend to yellow or chip under thermal cycling. In contrast, acrylic latex expands and contracts with substrate movement. This characteristic has saved us frequent callbacks for patching and repairs. Job foremen from port facilities and transformer yards have confirmed fewer failures at stress points, especially on older beams where settling or vibration put coatings to the test.
Our process for qualifying a batch never stops at the minimum required testing. We measure actual fire resistance using instruments that simulate open electric arcs and prolonged flame impingement, not solely the short-term lab burn tests common to catalog datasheets. These controlled exposures tell us how long a single 1.5 mm layer will hold its structure before heat distortion or charring. Several customers from chemical processing plants have compared our measured fire barriers with those from imported products, noting Jing B60-70 delivers a consistently thicker, more robust film.
Yet, it’s not just about building a thicker paint layer. We refine our raw input grind and blending protocol so that each bucket produces the right film build without streaking or excessive sag. Production operators catch the difference as they lay down the coating—smoother finish and fewer dry spots along edges or welded joints. Users see it in faster coverage, lower material waste, and a surface that can hold paint markers or safety stickers without peeling back.
Every new construction or retrofit brings its own surprises. Surfaces may be pitted, rusty, or just uneven from years of patchwork maintenance. B60-70’s formulation offers enough “forgiveness” to tolerate less-than-perfect prep, creating a tight bond over lightly abraded steel and fiber cement. We’ve worked with industrial painters short on time who rely on a rapid-drying formulation—not to accelerate schedules out of convenience, but to beat shifting weather or to fit into plant shutdowns that don’t last more than a weekend. The coating skin-dries fast, so the next layer or topcoat goes on without hours of idle time.
Across warehouses and logistics terminals, someone always asks about traffic impact. Long drying times and high solvent loads can disrupt fork truck lanes or contaminate adjacent spaces. Because B60-70 uses a water-based acrylic dispersion, ambient air carries away nearly all volatile components by the end of the shift. Smell, often ignored by product brochures, matters to anyone working nearby—ours cuts down sharp odors and respiratory irritation reported with solvent-based alternatives.
Installers, maintenance crews, and end-users share one question: “How long does it last under real loads and temperature swings?” Our on-site surveys covering years of deployments in foundries and turbine halls show the B60-70 retains its adhesion and fire barrier properties far beyond the two- or three-year marks typical for quick-fix imports. Several of our oldest installations, checked after five winter-summer cycles, show minimal chalking and few blisters even in high-humidity environments.
Traditional bituminous and silicate-based fireproof coatings fall short mainly because of poor UV resistance and tendency to become brittle. Lower-cost acrylics sometimes sacrifice filler quality, leading to powdery surfaces or gradual erosion. Our experience with outdoor piping and exposed steel beams has made it clear: choosing well-dispersed, heat-resistant fillers and an acrylic latex backbone saves owners on labor and recoating. For storage tanks and machinery housings, the anti-sag and wet adhesion properties mean a second layer bonds without peeling or flaking.
Building service teams appreciate that the B60-70 coating allows repainting or inspection marking right over the dried surface. Many fireproofing systems make repaints difficult, because their topcoats reject new paint or trap moisture beneath. Our product’s finish welcomes a range of waterborne topcoats, safety colors, and clear sealers without curling or chalking. It’s the difference between costly stripping jobs every cycle and simple touch-ups using standard painting tools.
It’s not just appearance. Once a system is installed, engineers or inspectors often scratch or sample coated areas to check for thickness or substrate corrosion. B60-70 absorbs the impact without shedding powders or showing indentation—a property that gets noticed in maintenance logs. The recovery from scuffs and mechanical marks means less debate when audits roll around.
Over the years, the paperwork on fire protection products has swelled. Detailed site logs, international certifications, and chemical compliance standards have become routine. B60-70 has passed fire resistance tests recognized in markets from East Asia to parts of Eastern Europe. As manufacturers, we keep lab and production records available for reference, from active ingredient batch traceability to installed layer thickness audits. Customers in power distribution and public facilities have reported smoother permitting because safety officers can reference the real test outcomes and trace all components to registered suppliers.
Local regulations also push us to reformulate for lower emissions and less workplace hazard. By using water-based acrylics, we skip toxic solvents and reduce flammable vapor risk in enclosed spaces. Some projects call for applications in hospitals, schools, or transport terminals—places where low odor and low toxicity matter as much as fire resistance. In these settings, our formula meets both safety codes and practical needs, without forcing crews to wear heavy protective gear or set up extra containment.
Field problems define coatings’ value more than any datasheet. Heat traps, poorly ventilated workshops, and coastal warehouses challenge any fireproof system. We have worked alongside maintenance teams battling condensation, salt spray, and constant vibration. Feedback shows B60-70 outperforms low-grade acrylics, which can soften or slip away under such cycles. The crucial difference comes from internal flexibility and minimum binder migration. Where others chalk or check under daily condensation, ours resists softening and water uptake.
Many coating failures stem from underestimating temperature spikes or humidity. Sagging, bubbling, and patch loss follow poor material selection. With the B60-70 blend, wet and dry adhesion characteristics let it hang on through equipment washdowns and emergency hose sprays. Customers have told us this gives them confidence after annual fire drills and compliance inspections. The reduction in touch-up and downtime stands out, especially for plants where production interruptions translate to real financial loss.
Side-by-side tests reveal that not all fireproof coatings perform equally under bending, impact, or temperature cycling. We learned early on, working shoulder to shoulder with field applicators, that generic “acrylic fireproof paint” often disappoints because its fire-blocking fillers settle or separate. Ours keeps fillers suspended, so every square meter applies with the right protection concentration—not just in the first pass but with every drum delivered to the site.
Another major distinction comes from environmental tolerance. Low-grade latexes in commodity paint break down in harsh sunlight or retain dirt and fuel residue, which degrade fire performance. Jing B60-70 repels oil and common industrial greases, making it less likely for overlooked spills or airborne contaminants to accumulate. The result is a safer, lower-maintenance surface, better able to pass surprise inspections and keep insurance auditors satisfied.
Trial after trial has also highlighted a low-mist, low-splash makeup. Workers standing just meters from a spray rig report less airborne debris, which makes it safer and easier to work around. This detail, so often ignored in glossy brochures, matters once crews face big, open surfaces or projects with tight safety budgets.
A recent refinery project posed serious fire risk due to congested cable trays and closely-grouped control panels. Applying B60-70, crews could coat both horizontal and vertical surfaces with minimal dripping or run-off. Post-installation audit showed no loss in fire resistance even in cable-dense corners. Similar results came in substation transformer enclosures, where heat cycling and high voltage demanded coatings without electrical conductivity and surface tracking.
Steel fabricators facing last-minute specification changes often rely on the B60-70’s compatibility with a wide range of primers and finishes. On one project, our client switched midstream from epoxy to zinc-rich underlayer. Both product lines integrated seamlessly, saving costly stripping and reapplication.
Warehouse operators reviewing maintenance logs noted drastically fewer re-coating tickets since switching to B60-70. The stable tint base also reduces color variation, so building managers do not face mismatched patch repairs visible to passersby or customers.
Producing reliable fireproof coatings takes more than mixing chemicals. Raw material sourcing, processing, and storage impact every bucket we sell. Over the years, we have built direct-to-mill supply relationships for acrylic emulsions and mineral fillers. We inspect and test incoming batches daily. Our lab runs periodic cross-checks of viscosity, solids content, and fire-barrier capacity, not just at new product launches, but with every production run.
Crews and contractors making bulk purchases rely on the fact that each drum of B60-70 flows, covers, and dries like the last. They can plan installation schedules, labor needs, and quality checks with less guesswork. This operational predictability counts as much in high-rise construction as it does in the small jobs—such as retrofitting a pumping room or sealing a heat-affected junction box.
Every day, our customers deal with pressure: keeping people and assets safe from fire, passing surprise inspections, and avoiding costly re-work or insurance setbacks. Jing B60-70 Acrylic Latex Fireproof Coating delivers through proven chemistry, real-world tolerance, and a straightforward application process that respects jobsite limitations. The formulation’s balance of flexibility, strength, and surface compatibility empowers maintenance teams, with a record of performance that grows with every year and every installation.
Product improvement never stops. Our R&D team revisits formulations continually as codes evolve and end-user needs change. Working directly with jobsite supervisors, inspectors, and facility managers, we incorporate lessons from each application into the next production cycle. The result: a fireproof solution ready for new demands—one recognized by professionals who work at the intersection of safety and operational uptime.
Jing B60-70 Acrylic Latex Fireproof Coating stands as more than a product code or a brochure entry. It comes from sustained attention to quality, performance, and the small details that make installations succeed in the field. Its enduring fire protection, easy application, and low-impact formulation reflect years of manufacturing know-how and direct customer partnership. In an industry where every minute lost to flame or downtime matters, this solution proves its worth on steel, concrete, and engineered surfaces built to last.
