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HS Code |
592001 |
| Product Name | Rutile Titanium Dioxide YSR-929 |
| Chemical Formula | TiO2 |
| Crystal Form | Rutile |
| Cas Number | 13463-67-7 |
| Appearance | White powder |
| Tinting Strength | High |
| Particle Size | 0.25-0.35 μm |
| Surface Treatment | Zirconium, aluminum, organic treated |
| Refractive Index | 2.74 |
| Oil Absorption | ≤21 g/100g |
| Specific Gravity | 4.0 g/cm3 |
| Volatility | ≤0.5% |
| Whiteness | High |
| Dispersibility | Excellent |
| Applications | Paints, coatings, plastics |
As an accredited Rutile Titanium Dioxide YSR-929 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Rutile Titanium Dioxide YSR-929 is packaged in 25 kg multi-layer kraft paper bags with inner plastic lining for moisture protection. |
| Shipping | Rutile Titanium Dioxide YSR-929 is typically shipped in 25 kg multi-layer paper bags, with options for jumbo bags or customized packaging upon request. Each bag is securely sealed to prevent moisture ingress, and pallets are used for safe, efficient handling during transportation. The product should be stored in a dry, ventilated area. |
| Storage | Rutile Titanium Dioxide YSR-929 should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and moisture. Keep containers tightly closed and protected from physical damage. Avoid storing with incompatible substances such as strong acids or oxidizing agents. Ensure good housekeeping to prevent dust accumulation and minimize the risk of contamination or spills. |
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Purity: Rutile Titanium Dioxide YSR-929 with 98% purity is used in high-grade architectural coatings, where it delivers stable whiteness and improved hiding power. Particle Size: Rutile Titanium Dioxide YSR-929 with 0.25 μm average particle size is used in automotive paints, where it provides superior gloss and enhanced opacity. Weatherability: Rutile Titanium Dioxide YSR-929 with high weather resistance is used in exterior emulsion paints, where it ensures long-term color retention and minimal chalking. Surface Treatment: Rutile Titanium Dioxide YSR-929 with silica/alumina surface treatment is used in PVC plastics, where it offers superior dispersion and increased UV resistance. Tinting Strength: Rutile Titanium Dioxide YSR-929 with high tinting strength is used in printing inks, where it enables deep, consistent color development and improved print clarity. Oil Absorption: Rutile Titanium Dioxide YSR-929 with low oil absorption (16 g/100g) is used in adhesives and sealants, where it maintains optimal viscosity and reduces formulation costs. Photostability: Rutile Titanium Dioxide YSR-929 with excellent photostability is used in flexible packaging films, where it prevents yellowing and preserves substrate integrity under light exposure. Opacity: Rutile Titanium Dioxide YSR-929 with enhanced opacity index is used in paper coatings, where it provides high brightness and reduces base paper show-through. Dispersibility: Rutile Titanium Dioxide YSR-929 with high dispersibility is used in waterborne paints, where it achieves uniform distribution and smooth surface finish. Specific Gravity: Rutile Titanium Dioxide YSR-929 with a specific gravity of 4.1 is used in masterbatches, where it ensures even pigmentation and stable processing performance. |
Competitive Rutile Titanium Dioxide YSR-929 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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In today’s markets, where products get judged not only by their performance but also by the value they bring to manufacturing processes, Rutile Titanium Dioxide YSR-929 stands out for a few simple reasons. While many pigments claim versatility, this one backs it up in daily use for industries that care about both color and consistency. The focus isn’t only about having a brilliant white or a strong hiding power, though both matter; it’s about getting these features with steady quality from batch to batch. That reliability turns out to be just as important for factories running paint, plastics, or ink lines, as any classic performance number.
People who work with coatings or polymers look for a pigment that can take some punishment—think about heat during extrusion or sunlight beating down on finished products. YSR-929 keeps its color steady out in the sunlight, even when used in outdoor paints or automotive finishes. That happens thanks to its optimized particle structure and an inorganic coating that helps shield the pigment from degradation. It resists yellowing, supports strong weather durability, and holds up under UV rays far longer than many standard grades. In my time working with various pigments as a lab tech, I watched low-end compounds break down faster, leading to customer calls about fading house paint or discolored siding. That’s a hassle no manufacturer wants to field.
Not all white pigments behave the same way. Some titanium dioxide grades work best in paper, glue, or toothpaste because those settings don’t push their durability limits. YSR-929 really shows its strengths where manufacturers need whiteness, gloss, and integrity to stick around: premium paints, powder coatings, rigid PVC, adhesives, printing ink, and even some specialty rubber applications. Its strong covering power means smaller doses still block out what’s underneath—a feature that leads to savings on material costs. I’ve worked with operators who moved production lines from cheaper anatase titanium dioxide to a rutile grade like YSR-929 and they reported a drop in complaints about patchy color and chalking. That’s concrete feedback you can’t always quantify in a spec sheet.
YSR-929 relies on a well-tuned blend of alumina and silica surface treatment, providing more than just a barrier to discoloration. This treatment gives the particles good dispersibility, which means they don’t clump together and form grainy patches during high-shear mixing or melt blending. These clumps—called agglomerates—are notorious for causing streaks in plastic film or roller marks in paint, and anyone who’s had to stop a line to troubleshoot those knows how much productivity can get lost. I’ve seen masterbatch producers quietly swear by a pigment like YSR-929 because it means fewer line stoppages, better throughput, and less scrap. For anyone watching a production bottom line, these are the features that add up over time.
More companies now expect their suppliers to demonstrate clean, safe products, ensuring no toxic heavy metals and full traceability. YSR-929 gets tested for low heavy metal content and complies with ROHS and REACH standards, so companies making children’s toys, packaging films, or household goods don’t run into regulatory surprises. Safety in materials is a growing concern, particularly with recent restrictions in Europe and parts of North America. What’s more, the specific crystalline form—the rutile phase—remains more chemically stable, staying inert in a range of chemical environments compared to anatase forms, which tend to be less robust under real-world stress.
Nothing sells a painted wall or a molded part faster than a surface that feels rich and clean. YSR-929 brings a real boost to gloss and smoothness, which shows up in everything from the luxe finish of automotive trim to the crisp look of interior wall paint. In product development meetings, the speed of color development and the depth of tone often steal the spotlight. Marketers like the product because it makes colors “pop,” while plant managers like it because jobs get done faster with less rework. Both benefits feed each other, as paint brands look to build reputations around reliability and beauty; the last thing anyone wants is a new color series that fades after one summer.
From a technical standpoint, YSR-929 doesn’t just check a box for “fine particle size” in a database. Its particle structure has been dialed in to control light scattering, which is what gives paints and plastics that full, vibrant white. When particles are too large, the result looks dull and washed-out; too small, and the pigment gets hard to mix, raising processing costs due to extra milling or dispersion steps. YSR-929’s structure makes for fast wetting and easy incorporation, which speeds up both laboratory trials and scaled-up manufacturing, reducing the headaches sometimes caused by stubborn pigment blends that clog up mixing tanks.
Several global producers offer rutile titanium dioxides. Some models focus on niche markets, sacrificing flexibility for a slight edge in a single application. YSR-929 avoids that pitfall, showing strong utility across both water-based and solvent-based systems. For end users needing to switch between product lines without costly requalification, having a go-to pigment makes a big difference. In my experience with custom color shops, pigments with unpredictable reactivity or dispersion profiles lead to more customer returns and strained supplier relationships. YSR-929’s reputation for easy predictability gives downstream users some peace of mind.
During the production of high-gloss coatings, for example, I’ve watched YSR-929 get added right at the paint grinder, passing through multi-stage dispersion with minimal foaming or viscosity spikes. Process engineers often mention that this behavior saves them from costly do-overs. In rigid PVC profiles, where pigment costs run high and loading needs to balance with impact modifiers, you see similar results: The finished products stay bright white without excess chalking, even after years in outdoor exposure.
Most endorsements don’t come from brochures—they show up in the form of fewer customer complaints and faster trouble-free manufacturing shifts. Regional paint brands who once leaned on local anatase and switched over to YSR-929 started reporting fewer early fading claims from construction firms and landlords. That sort of direct user evidence, especially in fiercely competitive markets, tells more than any isolated test result or promotional push. On the plastics side, masterbatch suppliers who tried different rutile grades head-to-head gave YSR-929 good marks for “low yellowness index” and fast throughput with minimal filter pressure rise, the kinds of features plant managers quietly note but seldom advertise.
Pricing always sits at the front of big batch purchases—a premium pigment rarely makes sense if the advantage only appears in a lab, but YSR-929 offers gains that show up in the end product’s shelf presence and repeat sales. Lower dosage needed means cost-per-unit stays competitive, especially for high-volume producers watching every penny. If a higher-grade pigment cuts failure rates after field exposure, the intangible return grows as warranties get honored and brand loyalty builds up. I’ve seen cost controllers take several rounds evaluating pigment options, then settle on a slightly pricier rutile grade like YSR-929 after tracking return rates and glossy finish consistency through several quarters.
Factories and brands are under new pressure to lower VOC emissions, cut waste, and shrink their environmental footprint. YSR-929 comes into play by supporting high coverage at lower pigment loadings, which cuts down the total chemical use per unit area. Production processes optimized for particle control also cut down on waste pigment dust and reduce migraines for those running the blenders—less wasted product means less overall energy and resource consumption. Since YSR-929 meets regulatory “clean label” criteria accepted by both European and North American agencies, manufacturers avoid re-tooling their supply chain to chase regulatory changes.
One issue that crops up across the pigment world involves pushing to meet strict thresholds on trace impurities. YSR-929 undergoes frequent quality checks to ensure it keeps heavy metals and unwanted residues well below legal limits. That reliability matters for companies exporting into tightly regulated markets. Another common hurdle shows up in batch size flexibility—small producers sometimes struggle with product flow or pigment settling. I’ve spoken with teams running YSR-929 who have seen easier scaling, as its consistency from lot to lot lets them shift between big and small runs without fine-tuning recipes every time.
Every pigment works best with a bit of know-how. Companies who use YSR-929 report best results after fine-tuning their dispersion protocol—whether using high-speed mixers in paints or twin-screw extruders in plastics. It benefits from operators who pay attention to mixing temperature, solvent selection, and order of addition. While the design helps prevent clumping, no pigment solves poor process hygiene. Consulting with pigment supplier support teams or leaning on technical case studies shortens the learning curve, so plant managers can tune recipes and production flows for speed, gloss, and color sharpness.
Manufacturers sometimes face bottlenecks linked not to the pigment quality itself but to old machinery, mismatched additives, or poor batch management. Solutions start with better process integration: diagnosing shear rates, mixer blade geometry, and fineness of grind for each unique application. For those who want to push efficiency even further, using in-line particle size analyzers during production has led to more consistent outcomes. Integrating YSR-929 with automated dosing and real-time quality checks helps maintain peak performance, cutting down on both labor costs and unexpected shut-downs from off-ratio blends.
Since technology does not stand still, manufacturers of additives like YSR-929 keep working with R&D teams to both tighten up process yields and meet new customer expectations for health and safety. By working directly with chemical engineers at end-user plants, pigment producers gather feedback and adjust coating techniques or blend compositions. The aim stays practical: maintain and improve lightfastness, hiding power, and ease-of-use, matching the evolving needs of industries demanding ever-shorter lead times and higher throughputs. Collaboration across industry lines—between additive suppliers, compounders, and brand owners—only strengthens the development feedback loop, leading to even better product iterations over time.
In the pigment space, marginal changes in titanium dioxide quality end up having big effects after thousands of production runs. Where lower-grade options might save a fraction on purchase cost, they can quietly erode product reputation as outdoor signs fade, vinyl siding weathers, or car trim dulls. YSR-929 turns out balanced properties, giving both looks and durability that buyers want, while helping manufacturers cut down on costly warranty work. The lessons coming from the shop floor—where new formulas go up against customer wear and tear—matter far more than the promises you hear in sales pitches.
Trends in pigments move as end-user expectations shift. Brands want long-lasting colors for houses, cars, toys, and functional plastics. This raises the bar for all raw materials and puts pressure on pigments like YSR-929 to keep up. As new scientific studies highlight possible nano-particle safety or environmental worries, established grades that already meet tough criteria look even better. In the long run, pigments that blend high efficiency, tough durability, and safe chemistry win out as old standards fall away and newcomers get tested under tougher real-world conditions.
Building on decades in color chemistry, I’ve watched how trust follows not only tested quality but also open data sharing and fast response from suppliers. YSR-929 has cultivated a record of transparency, backed by batch certificates and third-party outcome data. In an age where trust and verifiable performance matter as much as price or technical stats, supply partners like this help big and small brands focus on launching new products without the risk of visible pigment failures.
Rutile Titanium Dioxide YSR-929 leaves its mark by helping producers, marketers, and end-users bridge the gap between reliability and economy. Its ability to cut through common headaches—yellowing, chalking, batch inconsistency, slow dispersion—means it anchors itself as a practical pick for companies running a crowded field of competitors. Through constant refinement and attention to customer outcomes, its record in weather resistance and workability continues to grow. In a world that keeps raising its expectations for performance, safety, and long-term value, grades like YSR-929 set a real bar for what modern titanium dioxide can and should offer.
