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HS Code |
174948 |
| Product Name | Rutile Titanium Dioxide BILLIONS BLR-886 |
| Chemical Formula | TiO2 |
| Rutile Content | ≥98% |
| Color Index | Pigment White 6 (PW6) |
| Crystal Form | Rutile |
| Average Particle Size | 0.26 µm |
| Surface Treatment | Alumina, zirconia, organic treatment |
| Specific Gravity | 4.1 g/cm³ |
| Oil Absorption | 18 g/100g |
| Ph Value | 6.5 - 8.0 |
| Tint Reducing Power | ≥1950 (compared with standard) |
| Residue On Sieve 45μm | ≤0.01% |
| Moisture Content | ≤0.5% |
| Whiteness | ≥96% |
| Dispersibility | Excellent |
As an accredited Rutile Titanium Dioxide BILLIONS BLR-886 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | BILLIONS BLR-886 Rutile Titanium Dioxide is packaged in 25 kg multi-ply paper bags with plastic inner liner for moisture protection. |
| Shipping | The chemical Rutile Titanium Dioxide BILLIONS BLR-886 is typically shipped in 25 kg multi-layer paper bags or 1000 kg jumbo bags, securely palletized and shrink-wrapped to prevent moisture and contamination. Shipping is conducted in compliance with international transport regulations, ensuring safe handling and storage during transit. |
| Storage | Rutile Titanium Dioxide BILLIONS BLR-886 should be stored in a cool, dry, and well-ventilated area, away from incompatible materials such as strong acids and alkalis. The product should be kept in tightly sealed containers to prevent contamination and moisture absorption. Avoid direct sunlight, sources of ignition, and extreme temperatures to maintain product quality and stability. |
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Purity 94%: Rutile Titanium Dioxide BILLIONS BLR-886 with a purity of 94% is used in architectural coatings, where it delivers high opacity and clean color development. Particle Size 0.25 μm: Rutile Titanium Dioxide BILLIONS BLR-886 with a particle size of 0.25 μm is used in automotive paints, where it enhances gloss and improves hiding power. Surface Treatment Alumina: Rutile Titanium Dioxide BILLIONS BLR-886 with alumina surface treatment is used in plastics compounding, where it boosts weather resistance and dispersion stability. Tinting Strength 1200 (relative): Rutile Titanium Dioxide BILLIONS BLR-886 with a tinting strength of 1200 is used in industrial coatings, where it increases color intensity and reduces pigment load required. Oil Absorption 18 g/100g: Rutile Titanium Dioxide BILLIONS BLR-886 with oil absorption of 18 g/100g is used in powder coatings, where it ensures smooth application and optimizes flow characteristics. Stability Temperature 300°C: Rutile Titanium Dioxide BILLIONS BLR-886 with a stability temperature of 300°C is used in thermoplastic masterbatches, where it maintains color integrity under high processing temperatures. Blue Tone Index 4.0: Rutile Titanium Dioxide BILLIONS BLR-886 with a blue tone index of 4.0 is used in inks, where it provides excellent whiteness and minimizes yellowing during print. pH Value 7.8: Rutile Titanium Dioxide BILLIONS BLR-886 with a pH value of 7.8 is used in waterborne coatings, where it achieves formulation stability and prevents pigment flocculation. Volatile Matter 0.5%: Rutile Titanium Dioxide BILLIONS BLR-886 with volatile matter content at 0.5% is used in PVC processing, where it reduces moisture-related defects and improves product longevity. Specific Gravity 4.1: Rutile Titanium Dioxide BILLIONS BLR-886 with a specific gravity of 4.1 is used in high-density composite materials, where it imparts superior opacity and consistent textural quality. |
Competitive Rutile Titanium Dioxide BILLIONS BLR-886 prices that fit your budget—flexible terms and customized quotes for every order.
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Rutile titanium dioxide isn’t exactly a newcomer in the pigment world, but what stands out about BILLIONS BLR-886 is the way it addresses real problems that people in coatings, plastics, and inks face every day. For many, quality control starts with finding a pigment that delivers consistent brightness, disperses well, and lasts even in rough environments. This product’s model, BLR-886, signals a commitment to raising the bar, with tight control over particle size and smart surface treatment methods, built to handle more than just standard indoor applications.
In practical terms, working with titanium dioxide means you learn to recognize how small differences in grind and coating affect not just the color, but how well a finished paint or plastic part survives heat, UV light, and abrasion. BLR-886 carries a rutile crystal structure, which typically makes a pigment stronger against chalking and fading compared to its anatase relatives. After years in the field watching coatings and plastics age, I’ve found that rutile-based grades often help extend warranty periods and cut down on costly callbacks to repair faded or chalked surfaces.
No matter how slick a product looks in the lab, the real test comes in production. BLR-886 has made its mark with high hiding power and excellent gloss, both of which matter whether you’re painting a wall or molding consumer products. Pigments can make or break how vivid or clean a color appears, especially when manufacturers push for sustainable, lower-VOC systems that don’t always play nicely with traditional additives. Compared to lower-grade rutile or basic anatase titanium dioxide, I’ve seen BLR-886 keep whiter, sharper finishes over time, with less susceptibility to dulling or yellowing in sunlight.
Specifically, BLR-886 covers well at lower loading levels—that’s a real cost advantage when you’re formulating for margin in competitive paint or plastic lines. In my experience working with both water-based and solvent-based paints, you want a pigment that disperses without extra surfactants or heavy milling, and BLR-886 delivers here. Its surface treatment prevents pigment clumps and helps the powder mix into resins and binders with less labor, keeping lines running instead of jamming up equipment.
Most questions about a rutile grade start with, “How white is it? How durable?” BLR-886 scores by providing a high light reflectance and fine particle distribution, translating to crisp, pure color in everything from architectural coatings to consumer products. White hasn’t always been easy to keep clean-looking—exterior paints often turn gray, and plastics can yellow after a year outdoors. Formulators who use BLR-886 report that their surfaces stay brighter longer, and they pass tougher accelerated weathering tests.
For plastics, keeping strength and color after long sun exposure is a pain point. BLR-886 brings improved photostability, which I’ve seen result from rutile titanium dioxide grades that use optimized doping and coating technology. Film extrusion, injection molding, or blow molding—each process gets easier when the pigment doesn’t clump or scorch. Gone are the days of uneven streaks in garden furniture or faded playground equipment just a season after installation.
Plenty of titanium dioxide on the market promises “rutile” or “high weather resistance,” but small details set BLR-886 apart. Many grades require heavy treatment to stop agglomeration, which sometimes interferes with tinting or dispersion. BLR-886 comes with a surface treatment that balances hydrophobic and hydrophilic properties, meaning the pigment can move from solvent systems to water-based systems with fewer hassles.
The impact shows up in real-world mixing tanks instead of marketing brochures. Coating manufacturers stuck with inconsistent tinting strength in other rutile grades have found BLR-886 brings more predictable color development, batch after batch. For anyone formulating industrial coatings, automotive finishes, or decorative paints, the payoff comes from not having to chase batch-to-batch rework due to pigment variability.
Product quality matters, but so does knowing your supply chain. The need for responsible mining and refining methods keeps growing, especially with increasing scrutiny from regulators and consumers. I’ve watched buyers and product developers shift toward titanium dioxide sourced from operations that follow environmental protection standards and robust traceability. BLR-886 responds with transparency about raw material sourcing and process optimization. Although not every aspect of the sustainability story can be verified at the pigment level, progress made by reputable producers in reducing waste and emissions deserves recognition.
Customers today expect safety data and extended documentation. BLR-886’s documentation covers industry benchmarks concerning particle size, heavy metal content, and food contact compliance. In conversations with compliance officers, it’s clear that rigorous quality testing—across colorimetric values, residue content, and filtration performance—is no longer optional.
Convincing a production manager to change a workhorse pigment doesn’t happen unless the alternative is better, easier, or cheaper. I’ve worked with brands switching from commodity titanium dioxide grades to premium options like BLR-886, and what tips the scale is reliability after storage, stability across different batches, and reduced waste. Pigments that cake, settle, or pick up water in humid warehouses drive up costs quickly. BLR-886 lands on production lines dry, free-flowing, and ready to use—a real-world difference that keeps downtime to a minimum.
Switching isn’t only about price per kilo; it’s about the actual cost from mixing to finish. Anytime I’ve seen a company adopt a high-quality rutile grade, the early investment is balanced by fewer rejects and faster production runs. For small-to-midsize producers worried about capital outlay, extending the lifecycle of finished goods and lowering warranty claims might matter more than shaving pennies at purchase.
New regulations and changing consumer demands keep formulators on their toes. Whether it’s lower VOC content, higher abrasion resistance, or more vivid hiding in smart coatings, BLR-886 checks off needs that regularly come up in technical meetings. Its rutile structure handles tough exterior conditions, making it a strong choice for products exposed to rain, shine, or industrial pollution.
Paint makers looking for cleaner color and higher gloss gravitate toward pigments with less sulfur content and smaller particle size distribution. In tests I’ve seen from third-party labs, BLR-886 meets these criteria, helping products qualify for certification in demanding markets. Decorative coatings using BLR-886 show deeper pure whites and reliable sheen, standing up after months of exposure that often age cheaper pigments prematurely.
Nothing upsets a tight production schedule quicker than a pigment that takes too long to disperse or causes unexpected filter clogging. With BLR-886, time spent waiting for even mix drops, and I’ve watched teams move on to next steps sooner, keeping lines efficient. Pigments can contribute to or solve agglomeration issues. BLR-886 handles high-speed dispersing well, allowing mixing equipment to run at optimal settings without babysitting or repeated cleaning.
A pigment’s contribution to durability can’t be ignored. Whether it’s a traffic marking struggling to keep color on scorching asphalt or a vinyl siding battling winters and summers, a rutile structure built right makes a world of difference. BLR-886 offers that extra level of resistance to UV fading, standing tough where budget pigments retreat. I’ve reviewed accelerated weathering results showing BLR-886 outperforming generic grades when it comes to both whiteness retention and gloss after months in harsh simulated sunlight.
End users don’t read technical sheets; they care that a fence, a window frame, or a painted wall stays sharp. BLR-886’s consistency helps brands deliver on promises and avoid headaches from warranty claims linked to fading, chalking, or poor hiding. Many markets, especially in construction and consumer goods, have raised their standards in recent years. Formulations that could get by with off-spec pigment just a few years ago would be rejected under today’s quality controls. BLR-886’s reliable performance helps meet tougher regulations for everything from color saturation to lead-free requirements.
In my own work, seeing fewer dye or pigment complaints from customers translates to time spent improving products, not troubleshooting patchy coatings. The difference can be thousands of dollars in saved labor and reclaimed reputation if you’re managing costs for a growing factory or brand. In decorative markets, where the “wrong white” can send back whole batches, extra confidence in pigment properties is worth betting on.
Every year, new resin systems, energy-saving finishes, and specialty coatings hit the market. Staying compatible with low-VOC, non-phthalate, and high-recycled-content formulations separates progressive pigments from old standbys. After seeing BLR-886 used in both traditional and emerging binder systems, it’s clear its surface technology helps blend with new chemistries without extra hurdles. I’ve followed projects moving into low-emissions indoor coatings and found BLR-886 pairs well without unexpected curing issues or downtime for re-engineering.
Performance in digital printing inks and specialty plastics, such as those used in electronics housings, brings another arena where pigment purity and consistency matter. BLR-886 meets those needs by avoiding common impurities and producing predictable optical properties—no small achievement when customers demand perfection on every run. Clients ask for technical support, not just product, and companies offering BLR-886 usually back it with solid application advice and troubleshooting, reflecting a larger shift toward partnership between manufacturers and users.
Sifting through pigment claims and real-life experiences, the winners are ingredients that create fewer problems down the road. BLR-886, in my experience and those of other users I’ve spoken with, means fewer headaches: it mixes easily, covers well, and stands up against tough weather and demanding applications. The difference isn’t just in lab values or gloss meters but in everyday factory stories—from fewer rejected panels to customers asking what changed to make products look newer, longer.
In sectors like construction, transportation, and white goods, feedback loops between installers, specifiers, and designers keep pushing for quality rises year after year. Anyone who’s tried to repaint a stained wall or replace a faded plastic enclosure after a harsh season will understand why investing in a top rutile grade pays off. BLR-886 stands up to those demands not through marketing promises, but demonstrated, everyday reliability on the line and after the sale.
Even among rutile titanium dioxide pigments, choices abound—each with their niche strengths. Some offer even higher gloss or cater to specialty tints; others bring ultra-low abrasion for sensitive processes. Where BLR-886 carves out its space is with its versatile fit across coatings, plastics, and inks, offering both cost efficiency and high performance without the trade-offs common in cheaper grades. For those whose applications run on the cutting edge, it might make sense to explore hybrid or nano-titanium dioxide, but for the bulk of daily manufacturing, the proven approach matters most.
Continued improvements in pigment surface treatments, milling technology, and purity will likely raise the bar even higher in coming years. In discussions with R&D teams, the next wave of innovation seems to revolve around lower energy needs during dispersion, less waste, and expanded color spaces for bright, pastel, or deep shades. Products following BLR-886’s approach—fusing real-world reliability with steady incremental technical gains—are poised to earn more share as industry evolves.
Today’s supply chains face greater scrutiny from both regulators and the public. Pigment producers stepping up with greater transparency—covering energy use, emissions, and safe labor practices—help buyers make informed choices. BLR-886 emerges from this movement, staking its reputation on not only field performance but also responsible production. End users, especially those selling internationally, value traceable inputs and third-party validation; BLR-886 is built to answer those concerns, making it as much a statement about company values as product quality.
Risk management also means looking at by-products and waste. Coatings and plastics producers benefit when high-quality pigments lead to less rework and discarded material, making a real difference in both environmental footprint and bottom line. Like many peers who think beyond the bill of materials, I see BLR-886’s fit for companies walking the walk on sustainability—reducing overcoats, cutbacks, and landfill overflows with every batch that qualifies on the first run.
Rutile titanium dioxide sits at the intersection of chemistry and necessity. Billions of products rely on this small, white powder to look good for years to come. In my years of formulating and troubleshooting, I see BLR-886 consistently outperform lesser grades, not just in formulas and factory lines but in helping companies build quality reputations. Gone are the choices between reliability and price—BLR-886 delivers on both.
To sum up, the industry measures pigments by performance over time, not one-off claims or fancy packaging. By choosing a well-proven rutile grade like BLR-886, brands can step up their game—offering whiter whites, longer product life, and fewer warranty returns. In a landscape where quality earns loyalty, this pigment stands out, giving teams the tools they need to create products that look fresh and work hard long after leaving the factory floor.
