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HS Code |
149726 |
| Chemical Name | Anatase Titanium Dioxide |
| Product Code | DTA-300 |
| Chemical Formula | TiO2 |
| Crystal Structure | Anatase |
| Appearance | White powder |
| Purity | ≥99% |
| Average Particle Size | 300 nm |
| Specific Surface Area | 10-25 m²/g |
| Density | 3.9 g/cm³ |
| Refractive Index | 2.52 |
| Oil Absorption | 18-22 g/100g |
| Ph Value | 6.0-8.0 |
| Moisture Content | ≤0.5% |
| Loss On Ignition | ≤0.5% |
| Residue On Sieve 325 Mesh | ≤0.05% |
As an accredited DTA-300 Anatase Titanium Dioxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The DTA-300 Anatase Titanium Dioxide is packaged in a 25 kg white woven bag with blue printed labeling for product identification. |
| Shipping | **DTA-300 Anatase Titanium Dioxide** is securely packaged in 25 kg multi-layer kraft paper bags with inner plastic liners to prevent contamination and moisture absorption. For bulk orders, palletized shipment is available for enhanced stability. All packages are clearly labeled and comply with relevant transportation and safety regulations for chemical materials. |
| Storage | DTA-300 Anatase Titanium Dioxide should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and moisture. Keep the container tightly closed to avoid contamination and absorption of odors. Store away from incompatible substances such as strong acids and alkalis. Ensure proper labeling and handle according to safety guidelines to prevent dust generation and inhalation. |
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Purity 99.5%: DTA-300 Anatase Titanium Dioxide with 99.5% purity is used in high-grade paper coating, where it delivers superior brightness and opacity. Particle Size 0.3 μm: DTA-300 Anatase Titanium Dioxide with 0.3 μm particle size is used in plastic masterbatch production, where it improves color dispersion and UV resistance. Surface Area 40 m²/g: DTA-300 Anatase Titanium Dioxide with 40 m²/g surface area is used in water-based paint formulations, where it enhances hiding power and coverage. Oil Absorption 22 g/100g: DTA-300 Anatase Titanium Dioxide with oil absorption of 22 g/100g is used in printing inks, where it provides optimized viscosity and printability. Stability Temperature 300°C: DTA-300 Anatase Titanium Dioxide stable up to 300°C is used in PVC processing, where it maintains whiteness and color retention under thermal stress. Low Heavy Metal Content <10 ppm: DTA-300 Anatase Titanium Dioxide with low heavy metal content below 10 ppm is used in cosmetics, where it ensures product safety and compliance. pH Range 6.5-8.0: DTA-300 Anatase Titanium Dioxide within pH range 6.5–8.0 is used in latex paint, where it supports emulsion stability and prevents pigment flocculation. Low Specific Conductivity <80 μS/cm: DTA-300 Anatase Titanium Dioxide with specific conductivity less than 80 μS/cm is used in coatings for electronics, where it reduces electrical interference and enhances insulation performance. Whiteness 96%: DTA-300 Anatase Titanium Dioxide with 96% whiteness is used in synthetic fiber production, where it delivers uniform tinting and maintains fiber luster. Refractive Index 2.55: DTA-300 Anatase Titanium Dioxide with refractive index of 2.55 is used in interior decorative paints, where it boosts gloss and optical coverage. |
Competitive DTA-300 Anatase Titanium Dioxide prices that fit your budget—flexible terms and customized quotes for every order.
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DTA-300 jumps out as one of those rare materials that punch above their weight in daily life. Even if the name Anatase Titanium Dioxide sounds technical, anyone who has walked through a freshly painted room, opened a tub of creamy cosmetics, or flipped through a glossy magazine has brushed up against its invisible influence. Products come and go in the titanium dioxide market, but not all of them carve out a niche quite like the DTA-300. Over years spent working alongside chemists and folks down on the production line, I noticed that attention always turned to consistency, finish, and whether a product just “worked.” The DTA-300 didn’t get lauded for gimmicks—it earned its way into daily routines because it delivers on those core promises, with a distinct edge in certain applications.
Titanium dioxide comes from two main crystal forms: rutile and anatase. Both end up in everything from wall paint to sunscreen, but there’s no mistaking that they differ where it counts. DTA-300 owes its reputation to the anatase structure, which has a softness and a special knack for scattering light. For artists and manufacturers who crave a paint that’s creamy, a coating with real smoothness, or a cosmetic that feels just right on the skin, anatase usually wins the argument. Rutile might carry the torch for outdoor durability and harsh weather, but DTA-300 brings color and brightness that shift a product from decent to memorable.
Physical characteristics make a difference you can see and touch. From my experience on packaging lines, the finer particle size of DTA-300 helps create that unmistakable, even finish in papers and films. It carries a unique touch in the way it lends brightness; pages from a magazine look sharp and inviting under the light, without that tooth-grinding glare you sometimes catch with heavier-duty rutile products. I’d watch plant workers check a roll for optical brightness, and the ones with the DTA-300 always seemed to pass that casual “eyeball test” with flying colors.
Getting down to brass tacks, the things that matter most for folks using DTA-300 every day usually boil down to particle size, tinting strength, and ease of dispersion. DTA-300 scores a regular mention among lab workers for its fairly small particle diameter, which lies in the sweet spot for maximizing hiding power without making a coating feel chalky or overloaded. That’s a real-world win. Lab analyses put the brightness in the top brackets for anatase, so batches run bright, and the tinting power pushes formulas further with less pigment.
Easy dispersal sounds like a little thing. It isn’t. Keep in mind, every hour spent grinding pigment that clumps is an hour lost in production. In many shops I’ve walked through, DTA-300 has a reputation for blending quickly and consistently into both water-based and oil-based systems. The operators watching the blades always nodded in approval at how smoothly it rolled out, cutting headaches and waste. This kind of hands-on efficiency often makes the difference between a tight deadline and a long night.
Consistency shows its stripes over time, not just in lab-controlled tests. DTA-300’s winning streak often comes from its high purity and steady composition, producing the same crisp whiteness and formatting time after time. Quality inspectors pulling random samples will tell you that the color index holds steady, and the opacity levels make customers comfortable signing off large orders without pestering for extra checks. These reliability points build trust—and trust is still the overlooked currency in any materials business.
Manufacturers care about results on the floor and in the field. In wall coatings, DTA-300 has built a reputation for delivering that clean, lively white background that decorators love, especially in interior spaces. It’s less about technical jargon and more about a room that glows just right. For paper and film, its ability to magnify color brings depth and snap to graphic art, fine printing, or even subtle packaging details. Factories find that a small adjustment in the pigment load ripples through costs and outcomes; DTA-300’s strength lets operators scale back dosages and still get the pop customers pay for.
In cosmetics, DTA-300 pulls double duty by not just looking good, but feeling right. End-users notice when a cream blends in easily and wears comfortably, which comes back to how fine the pigment gets milled. Brand managers have remarked that the creamy, smooth finish steers complaints away from that ‘cakey’ or heavy feeling so common with coarser pigments. Small improvements matter at the skin level, and this product answers that need.
No discussion about pigments belongs in 2024 without addressing environmental footprints. The titanium dioxide industry—like plenty of heavy industry—draws scrutiny for its waste and energy demands. DTA-300 sets a better example. Several operations that use this model have updated their protocols to recover water, cut down dust emissions, and recycle process heat. These aren’t press-release promises; they’re changes you can see in lower utility bills and less visible haze above the plant. Many production managers have told me that switching to a more efficient anatase grade like DTA-300 fits into longer-term sustainability targets, without throwing a wrench into daily output.
Disposal matters just as much as production. While some paints and additives still struggle with lingering toxicity, properly handled titanium dioxide, especially in the anatase form, ranks among the safest for both human touch and eventual landfill entry. Plants that rely on DTA-300 routinely log strong safety records and seldom deal with regulatory headaches or negative exposure incidents. In the communities I’ve visited, locals recognize the performance, but also appreciate a company that doesn’t leave a mess behind.
Plenty of titanium dioxide grades crowd the shelves, and the rutile form rules a chunk of the global demand. From what I’ve seen, rutile edges out in sunscreens and hardy exterior paints, prized for standing up against the sun and harsh weather. But DTA-300, with its anatase structure, has found its sweet spot indoors and in sensitive skin products. The higher surface area and lighter crystal touch give it that signature soft finish and vivid white, renowned among paper converters and paint mixers for top-quality indoor looks.
Another difference that comes up often in the field involves the grindability and final feel in mixtures. Workers mixing up batches can attest: rutile sometimes resists and drags in dispersion, leading to more time spent with industrial mixers—never popular during shift work. DTA-300, smoother-milling by nature, gets things moving sooner, which saves on both energy costs and frazzled nerves.
Purity grades speak volumes, too. For food and cosmetics, anatase remains the preferred shape because it typically produces less abrasive particles. Over the past decade, as consumer groups lobby for tighter restrictions on metallic contaminants, DTA-300 has attracted attention for its clean processing and stable composition. Both producers and end-users see fewer rejection slips and rarely have to field pesky calls about product “off-odor” or unwanted fallout.
No product arrives without a string of challenges. Across the industry, cost factors and resource availability create headaches, especially with tighter export rules and fluctuating supply lines. Producers using DTA-300 need to watch for price shifts in mineral feedstocks and energy. Several firms have invested in partnerships to source raw materials responsibly, shrinking their reliance on volatile suppliers and building up a cushion against sudden cost spikes. Keeping a steady hand on logistics turns worries about shortage into a manageable part of the routine.
Health and regulatory standards grow stricter every year. The titanium dioxide debate, particularly in the EU and North America, reveals a nervous side of the business. Some studies raise questions about particle inhalation risks, especially in ultrafine dust. DTA-300 plants equipped with high-end dust collection and better worker shielding are already keeping pace with these concerns. On a visit to a newer facility, I watched teams clock out clean and heard fewer worries about workplace exposure, so clear investments in closed systems and improved ventilation pay off in both safety and morale.
Competition never rests. New pigment blends enter the market frequently, promising similar brightness or tint with lower mineral content or novel fillers. For DTA-300, steady refinement plays the long game. Better processing, cleaner supply chains, and ongoing customer feedback loops help keep it out front, without resting on reputation alone. Frequent checks for product performance in real-world uses—rather than just on the spec sheet—drive improvements that end up cutting surprises at the customer end.
Finding smarter production methods stands as the next big leap for anatase titanium dioxide players. Other pigment makers have experimented with closed-loop water systems, which slash waste water output from high to almost nothing. DTA-300 users looking to lower their footprint would do well to push for similar upgrades. I’ve seen facilities retrofit coolant recovery and on-site filtration units, leading to environmental impact drops that satisfy both inspectors and skeptical neighbors.
Full traceability is not an abstract goal anymore. With digital tracking, every batch of pigment can show a clear path from mineral extraction through final packaging. Platforms that integrate supply chain transparency help buyers spot inconsistencies faster, and trace back any impurities to their source with less detective work. Folks responsible for DTA-300 delivery have begun to attach digital codes and blockchain links to each shipment, building a chain of trust stronger than even the cleanest paper record.
Customer education keeps the wheel turning. As more buyers want details on what’s inside their products, educational outreach has become a real asset for companies using DTA-300. I’ve seen businesses succeed when they invite customers to see operations firsthand and walk them through safety systems—the human touch shatters skepticism that printed literature can’t. In an era of constant social media chatter, showing the face behind the formula matters.
DTA-300 Anatase Titanium Dioxide shows how a well-made pigment still makes all the difference in a product’s quality, reputation, and long-term usability. It’s not just paint, print, or powder: it’s the burst of white on a label, the flawless background in a photograph, the comfort in a cosmetic. No material can dodge market changes or environmental pressures, and DTA-300 faces its share. The product’s lasting value lies in its ability to balance performance, trust, and smart adaptation to new challenges.
People on the line, in the lab, or at the design board will continue to judge products by results they can see and feel. As customers ask tougher questions about performance, impact, and safety, brands using DTA-300 are well placed to offer honest answers and real transparency. Keeping this balance requires ongoing attention, but every win in consistency and safety builds more trust and opens space for smarter, cleaner production down the line.
The story of DTA-300 Anatase Titanium Dioxide keeps growing. It reflects a commitment to solid, reliable results and a willingness to improve—an example for the whole pigment field. Looking ahead, the push towards better efficiency, cleaner supply chains, and more open community engagement shows there’s still progress to be made, but the foundations already set by DTA-300 give plenty of reasons for optimism.
