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HS Code |
674891 |
| Product Name | Rutile Titanium Dioxide YSR-927 |
| Appearance | White powder |
| Crystal Form | Rutile |
| Tio2 Content | ≥ 93% |
| Surface Treatment | Silicon & Aluminum |
| Oil Absorption | ≤ 22 g/100g |
| Specific Gravity | 4.0 g/cm³ |
| Residue On Sieve 45μm | ≤ 0.02% |
| Whiteness | ≥ 98% |
| Tinting Strength | ≥ 1900 (Reynolds) |
| Ph Value | 6.5 – 8.0 |
| Volatiles At 105c | ≤ 0.5% |
| Dispersibility | Excellent |
As an accredited Rutile Titanium Dioxide YSR-927 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Rutile Titanium Dioxide YSR-927 is typically packaged in 25 kg multi-layer kraft paper bags with an inner plastic lining for protection. |
| Shipping | Rutile Titanium Dioxide YSR-927 is typically shipped in 25 kg multi-layer paper bags with PE liners or 500/1000 kg jumbo bags. The product must be kept dry, protected from moisture and contamination, and stored in a cool, well-ventilated area. Handle with care to prevent damage to packaging during transportation. |
| Storage | Rutile Titanium Dioxide YSR-927 should be stored in a cool, dry, and well-ventilated area, away from moisture and incompatible substances. Keep the containers tightly closed to prevent contamination. Avoid direct sunlight and high temperatures. Store away from strong acids and alkalis. Ensure storage conditions protect against physical damage to maintain product quality and stability. |
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Purity 98%: Rutile Titanium Dioxide YSR-927 with purity 98% is used in automotive coatings, where it provides high color brightness and excellent covering power. Particle Size 0.25 μm: Rutile Titanium Dioxide YSR-927 with particle size 0.25 μm is used in interior wall paints, where it enhances smoothness and uniform pigment dispersion. Oil Absorption 19 g/100g: Rutile Titanium Dioxide YSR-927 with oil absorption 19 g/100g is used in plastic masterbatches, where it improves processability and consistency of color strength. Tinting Strength ≥ 1900: Rutile Titanium Dioxide YSR-927 with tinting strength ≥ 1900 is used in powder coatings, where it delivers intense and stable coloration. Weather Resistance: Rutile Titanium Dioxide YSR-927 with superior weather resistance is used in exterior building paints, where it enables long-term gloss retention and color stability. Dispersion Grade High: Rutile Titanium Dioxide YSR-927 with high dispersion grade is used in printing inks, where it ensures fast and uniform color development. Surface Treatment Alumina & Zirconia: Rutile Titanium Dioxide YSR-927 surface treated with alumina and zirconia is used in PVC profiles, where it increases UV durability and minimizes chalking. pH Value 7.5: Rutile Titanium Dioxide YSR-927 with pH value 7.5 is used in cosmetic formulations, where it maintains formulation stability and safety for skin contact. Volatile Matter ≤ 0.5%: Rutile Titanium Dioxide YSR-927 with volatile matter content ≤ 0.5% is used in waterborne paints, where it reduces defect rates and supports film integrity. Surface Area 15 m²/g: Rutile Titanium Dioxide YSR-927 with surface area 15 m²/g is used in coatings for industrial machinery, where it improves opacity and hiding power. |
Competitive Rutile Titanium Dioxide YSR-927 prices that fit your budget—flexible terms and customized quotes for every order.
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Few additives shape modern products as much as titanium dioxide. Years ago, my introduction came from paint manufacturing, where finding the right pigment mattered for both brilliance and cost. Rutile Titanium Dioxide YSR-927 grabbed my attention due to its reliable performance in various industrial and commercial applications. Through hands-on use and observation, it stands out not simply by meeting the demand for whiteness, but also by holding up under tough conditions — whether that’s sunlight, moisture, or time.
Let’s get specific. The model YSR-927 uses the rutile crystal structure, not the anatase type you sometimes see in other products. That shift in structure isn’t just chemistry on paper; you see the benefits each time a bright white coating stays vibrant season after season. The rutile variant carries higher weather resistance, and its opacity helps manufacturers meet color intensity standards while using less product. In comparison to other grades of titanium dioxide, YSR-927 isn’t just about blending in, it's about staying visible and strong where products face heat, UV, and weather.
A common task in formulation is to deliver not only looks but also endurance. On a walk through my local shopping district, the difference between a sign painted with quality rutile titanium dioxide and others is clear. Faded colors and streaks often mean a lower-grade or anatase type took center stage. That’s a setback for both manufacturers and consumers, who count on shelf appeal and lasting performance. YSR-927’s resistance to UV degradation turns that around, leading companies to rely on it for durable paints, coatings for vehicles, construction materials, and even plastic goods exposed to the sun.
Most folks—myself included—want to know why pick this model over others. Experience has shown that not all titanium dioxides are created equal, and those differences show up right where it matters. Run your hand along a fence coated with YSR-927 two years after installation, and you’ll probably feel the difference: a smoother finish, and a cleaner look. Compare this to other additives that seem similar and you’ll notice YSR-927 brings higher hiding power, meaning you use less to get the coverage you want. That efficiency translates to lower ongoing costs, and less environmental impact from excess paint, which matters as businesses push for greener operations.
Customers in industries from automotive to home décor demand high-purity and chemical stability in pigments, and YSR-927 delivers on both fronts. Its controlled particle size and surface treatment set it apart from more generic grades. In practice, that means less clumping, easier mixing, and a finished product that’s consistent batch after batch. I often see companies using rutile for its chemical resistance in plastics, ensuring that yellowing and degradation stay at bay for longer, particularly in products used outdoors or in demanding industrial settings.
People sometimes underestimate how much impact a pigment can have. Early in my career, I handled touch-up work on outdoor facades. Using lower-tier powders, we’d constantly be called back for maintenance, as weather would chew through finishes, leaving them dull and streaky. With rutile titanium dioxide like YSR-927, that call-back cycle all but vanished; colors stayed crisp, and surfaces resisted chalking or fading. When time means money and reputation, using a high-quality input is worth every cent.
There’s another side to this story: health and safety. Not every pigment meets strong purity and environmental benchmarks. YSR-927 is produced under conditions where trace metals and contaminants are minimized, lowering risks to both those applying it and the end users. Businesses face pressure to comply with increasingly strict regulations — from Europe’s REACH to evolving domestic standards — so choosing the cleaner option can avoid costly recalls or compliance headaches down the road.
A big lesson from the field: switching between grades can seem like a shortcut, but it rarely pays off. Some might try titanium dioxide of the anatase type, thinking that a lower up-front cost will balance out. In reality, those products often lack the sunlight resistance and hiding properties of rutile YSR-927. I’ve watched manufacturers wrestle with re-doing batches, fielding customer complaints, and watching their brands suffer, all because of a pigment change to save a little in the short term.
YSR-927’s versatility shows up in more than just paints. It offers strong performance in plastics and masterbatch production, holding its brightness and resisting photodegradation over repeated heat cycles. Often in plastics manufacturing, the first sign of a lower quality pigment is the way products warp or turn yellow under fluorescent or sunlight exposure. Switching to a robust grade like YSR-927 can extend product lifespans, keep warranties intact, and lower replacement costs.
Sustainability isn’t an option anymore; it’s a requirement. Companies are under pressure to cut waste and emissions, while still delivering visually appealing and long-lasting goods. YSR-927’s high opacity allows for thinner coating applications and reduces the total amount needed per job. From my experience working with environmentally focused producers, reducing thickness without sacrificing coverage stands out as the fastest way to cut waste and lower emissions from both manufacturing and transport.
Another important angle is recyclability. Some pigments contain residues that make material recovery difficult, effectively preventing plastic product recycling. YSR-927, produced with careful control over contaminants, fits better with recycling targets. Plastics colored with it enter the recycling chain without introducing impurities that could compromise new product quality. That shift benefits not just manufacturers, but everyone looking to support a sustainable economy.
Manufacturers often wrestle with the challenge of achieving consistency, keeping costs down, and meeting both visual and regulatory requirements. Using YSR-927, I’ve seen operations shave hours from production cycles by cutting out unnecessary adjustments between batches. Product failures due to fading, yellowing, and chalking drop off, leading to fewer returns and improved customer loyalty. Cutting costs isn’t always about finding the cheapest input, but rather, choosing materials that eliminate headaches later.
Mixing and dispersion remain another sticking point. Years working in the factory taught me that poor mixing leads to speckled finishes and product loss. The consistent particle size distribution in YSR-927 actually makes a real difference in both manual and automated systems. Less downtime, less rework, and higher first-pass yields all add up, pushing productivity gains across the line.
The world isn’t slowing down, and neither are demands for high-performance materials. In construction, automotive, and consumer goods, long-term durability and aesthetics are more connected than ever to the choices made in raw materials. My own work in maintenance and production consistently tells the same story: investing in a reliable pigment like YSR-927 pays off in real returns, customer satisfaction, and peace of mind.
Titanium dioxide has often been under the regulatory microscope, and companies turn to trusted models to keep ahead of compliance. Using YSR-927 means fewer concerns with heavy metal content, easier documentation during audits, and stronger partnerships with clients who care about environmental impact. As regulatory landscapes tighten, future-proofing supply chains with products already designed for strict standards simply makes sense.
The market is full of choices, which can make it tempting to treat pigments as commodities. Over time, and after plenty of troubleshooting, I learned to recognize the importance of consistency in manufacturing. In high-stake fields like auto coatings, a single mismatched batch sets back entire production lots, upsetting schedules and risking customer trust. YSR-927, with its predictable behavior and proven record, has become the go-to for such critical environments.
Feedback from customers and end users bears out these experiences. Products that keep their color under daily use draw repeat business. Manufacturers see fewer complaints related to fading or weathering, especially for products used outdoors or under tough lighting. These are not minor gains — customer loyalty, brand reputation, and lower lifetime costs make a powerful case for choosing the right pigment form the outset.
No product is perfect, and even with all the strengths of YSR-927, the market will continue to demand lower environmental impact, better economic performance, and new technical capabilities. Continuous feedback between suppliers, manufacturers, and users drives improvements in surface treatment, particle morphology, and production methods. Some of the most exciting advances I’ve seen recently involve adapting titanium dioxide to support antimicrobial functionality or further enhance UV resistance, which adds extra value in building and medical sectors.
The shift towards circular economies and closed-loop recycling pushes manufacturers to choose inputs that won’t become liabilities decades later. Meeting these challenges calls for both technical innovation and openness to regulatory change. YSR-927, backed by a strong track record and adaptability to new standards, stands ready for this next chapter.
For producers balancing budget pressure, performance needs, and regulatory expectations, YSR-927 represents an option that has proven its value in countless real-world situations. Having spent years working with both consumers and producers, I’ve seen firsthand how careful material selection up front can sharply reduce later problems, protecting products from premature failure and companies from unnecessary expense.
Each industry faces its own set of challenges, yet across paints, plastics, and coatings, the demand for clean, bright color paired with lasting strength stays the same. By sticking with pigments that are both tested and trusted, such as YSR-927, companies position themselves for long-run success — both in customer eyes and on the balance sheet.
Years in the industry have taught me that the true mark of quality is seen over time, as products that use top-grade materials distinguish themselves in appearance, longevity, and reliability. Rutile Titanium Dioxide YSR-927 fits that expectation on every front. It provides a tough, high-performing pigment solution for modern manufacturing demands, adapts well to tighter standards, and supports both sustainability goals and company reputations.
