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HS Code |
143373 |
| Product Name | DTA-200 Anatase Titanium Dioxide |
| Chemical Formula | TiO2 |
| Crystal Form | Anatase |
| Appearance | White powder |
| Purity | ≥99% |
| Average Particle Size | 200 nm |
| Specific Surface Area | 10 m²/g |
| Oil Absorption | 20-26 g/100g |
| Loss On Ignition | ≤0.5% |
| Ph Value | 6.5-8.0 |
| Moisture Content | ≤0.5% |
| Refractive Index | 2.55 |
As an accredited DTA-200 Anatase Titanium Dioxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The DTA-200 Anatase Titanium Dioxide is packaged in a 25 kg white polyethylene bag with blue labeling and product details. |
| Shipping | DTA-200 Anatase Titanium Dioxide is typically shipped in 25 kg multi-ply paper bags, with additional palletization or jumbo bags available upon request. The product is stored in a cool, dry, ventilated area to prevent moisture absorption and contamination. Handle with care to avoid dust generation during transport and storage. |
| Storage | DTA-200 Anatase Titanium Dioxide should be stored in a cool, dry, and well-ventilated area, protected from moisture and direct sunlight. Keep the container tightly sealed when not in use to prevent contamination. Avoid storing near strong acids, alkalis, or combustible materials. Ensure proper labeling and follow all applicable regulations for safe handling and storage. |
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Purity 98%: DTA-200 Anatase Titanium Dioxide with purity 98% is used in paint formulations, where it delivers high opacity and superior whiteness. Average Particle Size 0.2 μm: DTA-200 Anatase Titanium Dioxide with average particle size 0.2 μm is used in plastics manufacturing, where it provides excellent dispersion and color strength. Oil Absorption 23 g/100g: DTA-200 Anatase Titanium Dioxide with oil absorption of 23 g/100g is used in rubber compounds, where it enhances flexibility and improves tensile properties. Brightness 98%: DTA-200 Anatase Titanium Dioxide with brightness 98% is used in paper coatings, where it increases surface gloss and uniformity. pH Value 6.8: DTA-200 Anatase Titanium Dioxide with pH value 6.8 is used in cosmetic formulations, where it ensures product stability and low skin irritation. Volatile Matter 0.5%: DTA-200 Anatase Titanium Dioxide with volatile matter 0.5% is used in inks, where it maintains printability and reduces drying time. Specific Surface Area 15 m²/g: DTA-200 Anatase Titanium Dioxide with specific surface area 15 m²/g is used in textile whitening, where it achieves high coverage and lasting brightness. Stability Temperature 350°C: DTA-200 Anatase Titanium Dioxide with stability temperature 350°C is used in high-temperature ceramics, where it retains color integrity and structural strength. Melting Point 1855°C: DTA-200 Anatase Titanium Dioxide with melting point 1855°C is used in glass manufacturing, where it supports high thermal resistance and clarity. UV Absorption 320 nm: DTA-200 Anatase Titanium Dioxide with UV absorption at 320 nm is used in sunscreen formulations, where it offers effective UV-blocking and photostability. |
Competitive DTA-200 Anatase Titanium Dioxide prices that fit your budget—flexible terms and customized quotes for every order.
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Every time someone glances at bright paper, smooth plastics, or well-coated walls, they’re running into the invisible hand of titanium dioxide. DTA-200 sits high on that list, carrying the anatase crystal form, which takes a different approach than the rutile grade a lot of people associate with the industry. Plenty of factories rely on anatase titanium dioxide’s ability to generate a softer, more diffused brightness. Over years in manufacturing and product development, I’ve seen the difference it makes—not as a technical spec, but as a material that changes the way products catch eyes and what buyers remember after closing the lid or flipping a page.
For people working behind the scenes in paints, papers, and plastics, that softer finish means less glare and a friendlier finish—without sacrificing that vital whiteness. DTA-200 doesn’t bully its way to the front with sheer coverage. Instead, it brings a gentler shading advantage, which matters, especially in paper where excessive brightness washes out markings or text. While rutile variants have their place, the true value of anatase, and DTA-200 specifically, rests in its nearly unmatched ability to keep colors natural and finishes readable.
After seeing a few decades’ worth of pigment trials and quality debates, it still strikes me how the chemical structure of DTA-200 makes such a difference. With its fine, needle-like particles and excellent dispersion qualities, anatase-based DTA-200 brings something subtle. More than just a pigment, it acts as a functional ingredient: paper mills value it for opacity and smoothness, not only for cosmetic reasons but because it strengthens those thin sheets against degrading sunlight and chemical reactions. Schoolbooks, food containers, and greeting cards come out looking richer, with lines and images standing out.
Plastic film producers often tell a similar story. DTA-200 can be integrated at lower concentrations and still achieve that critical appearance. There’s less need to overload the compound, saving costs and preventing brittleness. I’ve watched production lines speed up because DTA-200 runs with less clogging and fewer side effects on machine wear. Teams report higher acceptance rates in packaging lines thanks to the mildness and high purity of the product.
Not all titanium dioxide types pull the same weight or serve the same industries. Technically, rutile grades dominate for outdoor paints and heavy-duty plastics because they bring UV stability nobody can beat. Yet, inside office supplies, carton packaging, and lighter coatings, anatase grades like DTA-200 shine in gentler lighting conditions — where glare reduction matters. What I and others in the field have observed over years is that DTA-200 doesn’t yellow over time, especially in products kept indoors.
There’s a long-standing debate about rutile versus anatase, but over countless projects, whenever cost, brightness, and print clarity become the big three requirements, DTA-200 gets the nod. The difference isn’t just technical—it’s visible in the warmth of printed labels and books that don’t dazzle the eyes harshly in sunlight.
All the science points to particle size and purity, but what most end users notice is how well DTA-200 covers, blends, and supports long-term product quality. Particle size often comes out around 0.2 microns, which is small enough to offer that distinct brightness without clumping or pattern interference—a detail that means printers and packaging houses need less cleaning downtime. It carries a whiteness index that rivals higher-priced rutile versions but brings a price advantage, making it a favorite for high-volume everyday products.
Surface treatment remains minimal, keeping DTA-200 friendlier to add-on additives and colorants during downstream blending. There’s a clarity about its composition; what shows up in the bag is just titanium dioxide—no surprise fillers. This level of purity isn’t about a marketing pitch, but real risk avoidance in industries where food or sensitive goods come into contact with packaging.
Every seasoned production manager knows how small inefficiencies balloon costs. Several paper makers have pointed out to me that DTA-200’s fine size actively reduces dust formation in mills, lowering the risk of airborne pigment contaminating other workspaces. It’s the kind of practical benefit that avoids fire hazards and keeps insurance folks happy.
Because it’s almost free-flowing and not sticky, most downstream plants don’t struggle with bridge formation or feeder blockages. On high-speed coating machines where every downtime minute counts, DTA-200 earned its reputation for stable flow and proper dosing. Mill managers often share that the pigment stays where it belongs, doesn’t build up on rollers, and washes off easily during cleaning cycles. Alarms for product waste and excess loss rarely sound when this grade runs through the lines.
Titanium dioxide isn’t just about performance; environmental conversations keep cropping up in every meeting I attend. Many buyers want reassurance that pigments don’t spike emissions or cause trouble for groundwater, especially near paper and plastic factories. DTA-200 stands apart because its production process, from what reputable suppliers share, keeps heavy metal residues far below legal thresholds. Sewage analysis from mills using DTA-200 consistently shows safe levels—company environmental officers often confirm this to me. This avoids compliance headaches and builds trust with regulators.
Pigments last, and so does their impact. The high purity of DTA-200 means companies use only as much as required, generating less pigment waste over time. By comparison, lower-grade substitutes often force heavier dosages, leading directly to more waste and lower profit margins. Cleaner handling and less spillage lower both environmental risk and disposal costs. For buyers who want safety without missing out on color quality, this matters more and more as green regulations roll out across regions.
The print industry faces steeper expectations each year. Publishers want offset and digital work to pop but still look crisp under every light. DTA-200’s unique scattering properties help eliminate those streaks and patchy spaces that cheaper pigments introduce. I’ve reviewed runs where side-by-side sheets, printed at the same resolution, only looked sharp and clear with DTA-200—and clients noticed the difference.
Label makers and box printers see the same results. Brightness reaches high points without a cold, blue tone, and fine color gradients remain distinct. This isn’t just about selling a pigment; it’s about meeting increasingly strict requirements for food-safe and toy-safe inks where additional whitening chemicals get flagged as hazards.
Settling for less in pigment choice often means faded packaging, yellowed manuals, and consumer complaints. Rural libraries and school districts often reopen stockpiles of books printed five, ten years earlier, and the difference in paper still leaps off the shelf: DTA-200-infused sheets keep their brightness, even after years boxed away in less-than-ideal storerooms. Many IT packaging suppliers tell me that older plastics colored with DTA-200 show less surface cracking or yellow fringing than those using rutile blends not designed for indoor, low-UV settings.
Durability follows from purity and particle size. Fewer impurities mean lower risk of yellowing or breakdown when exposed to moderate heat or humidity cycles—a common headache in warehouses and retail displays. That long game counts for both brand protection and cost control. Retailers don’t throw away faded boxes; brands dodge unnecessary replacement runs.
Food-grade packaging draws more scrutiny each year. Analysts and regulatory advisors frequently stress trace element control and inertness. DTA-200 gets frequent requests because it doesn’t transfer taste or odor, and lab testing regularly comes back with zeros for common heavy metal contaminants. With more supply chains connecting across continents, companies want pigments that pass strict thresholds not only in their home countries but across multiple regulatory zones.
Pharmaceutical companies push even harder on purity. The small particle size found in DTA-200 allows for better film coating on tablets and capsules, giving smoother, more attractive results while ensuring the active ingredients underneath aren’t compromised. My contacts in large-scale contract manufacturing constantly mention how easy it is to audit batches and trace sources with DTA-200—no mystery blends or guessing about what landed in their supply.
Feedback from line operators and product managers carries weight far beyond marketing brochures. In their experience, batches made with DTA-200 yield fewer rejections at inspection, especially at the tightest tolerance levels. Not every pigment can promise that, yet absence of agglomeration and low dusting levels mean less rework in the plant and higher throughputs week after week.
Technical service teams consistently share that print heads and mixing pumps last longer, partly because the finer quality of the pigment keeps equipment clean. As one plant manager told me, “You pay less for maintenance when you avoid rough, uneven pigment.” A simple insight, but over dozens of plants and hundreds of product runs, these savings add up.
Every product has tradeoffs. Some buyers with deep outdoors exposure or extreme climate needs still stick with rutile types, accepting their cost and finish. Where the climate sits mild and products avoid direct sun, DTA-200 remains a solid pick. The challenge for many buyers comes from balancing price, purity, and technical support. Suppliers willing to provide traceability certificates, regular batch testing, and live technical support stand apart—DTA-200’s long-term reputation in the market grows from this foundation, but end users must keep vetting their sources.
Education remains critical. Every factory floor has workers skilled at spotting pigment “troublemakers”—too much dust, unpredictable shade, weird handling in bulk feeders. Experienced operators favor DTA-200 because it behaves, which keeps lines on schedule and lowers labor strain, especially during long production shifts.
Asia, North America, and Europe regularly update packaging standards, especially in food, toy, and consumer goods sectors. DTA-200 meets or beats widely required purity and migration limits. Purchasing teams routinely check not just pigment content but trace heavy metals, rare earths, and persistent organic pollutants. In reviews, DTA-200 consistently passes, reducing the need for retesting or substitute hunting.
I’ve witnessed, over many years, that brands relying on DTA-200 tend to breeze past audits that trip up their competitors. There’s less paperwork hassle, fewer “stop-sales” from import checks, and faster market entry for new goods. Compliance isn’t just a formality; getting knocked back by customs for a technical infraction kills time and momentum. Having a pigment like DTA-200 eliminate that concern frees teams to focus on actual product improvements.
Looking ahead, there’s little doubt that consumer demand for safe, attractive, and environmentally friendly products will keep rising. Brands, in turn, will put more pressure on suppliers for proof and transparency. The straightforward traceability and high-quality results that DTA-200 offers put it in a strong position for businesses navigating tough global markets.
Environmental compliance is growing stricter. Firms that already rely on DTA-200’s clean handling and efficient dosage can tell regulators and customers exactly what’s present in the packaging, with much less risk of surprise recalls or regulatory penalties. Pigments used in everyday goods—books, boxes, wrappers—once stayed in the background. Now they serve as badge-of-honor ingredients for both brands and their customers.
The future belongs to products that balance efficiency and quality at no compromise to safety. DTA-200 continues playing a visible, supportive role. It’s become more than a commodity pigment; in my experience, it’s what companies depend on to bridge the gap between regulatory demands and consumer expectations, year after year.
