|
HS Code |
441591 |
| Product Name | Anatase Titanium Dioxide HTA-201 |
| Chemical Formula | TiO2 |
| Appearance | White powder |
| Crystal Structure | Anatase |
| Tinting Strength | High |
| Oil Absorption | 15-23 g/100g |
| Specific Gravity | 3.8-3.9 |
| Ph Value | 6.5-8.0 |
| Volatile Matter At 105c | ≤0.5% |
| Residue On Sieve 45um | ≤0.05% |
| Content Of Tio2 | ≥98% |
| Average Particle Size | 0.2-0.4 microns |
| Water Soluble Matter | ≤0.4% |
| Dispersibility | Good |
| Refractive Index | 2.55 |
As an accredited Anatase Titanium Dioxide HTA-201 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Anatase Titanium Dioxide HTA-201 is packaged in a 25 kg white woven bag with blue lettering and product details clearly labeled. |
| Shipping | Anatase Titanium Dioxide HTA-201 is typically shipped in sealed 25 kg multi-layer kraft paper bags with inner polyethylene liners to prevent moisture absorption. Palletized loads are shrink-wrapped for stability during transit. The product should be stored and transported in a dry, well-ventilated area, away from incompatible substances and direct sunlight. |
| Storage | Anatase Titanium Dioxide HTA-201 should be stored in a tightly sealed container in a cool, dry, and well-ventilated area. Protect it from moisture, direct sunlight, and incompatible substances. Keep away from sources of ignition and strong acids or bases. Handle the product with care to prevent dust generation and spillage, using appropriate personal protective equipment when necessary. |
|
Purity 99%: Anatase Titanium Dioxide HTA-201 with purity 99% is used in high-quality paint formulations, where it delivers exceptional whiteness and brightness. Particle Size 0.2 μm: Anatase Titanium Dioxide HTA-201 with particle size 0.2 μm is used in plastics manufacturing, where it imparts optimal dispersion and gloss. Surface Treatment Silicon: Anatase Titanium Dioxide HTA-201 with surface treatment silicon is used in cosmetic products, where it enhances UV protection and improves skin feel. Oil Absorption 25 g/100g: Anatase Titanium Dioxide HTA-201 with oil absorption 25 g/100g is used in printing inks, where it ensures smooth texture and print clarity. Photocatalytic Activity High: Anatase Titanium Dioxide HTA-201 with high photocatalytic activity is used in self-cleaning coatings, where it facilitates rapid degradation of organic contaminants. Stability Temperature 200°C: Anatase Titanium Dioxide HTA-201 with stability temperature 200°C is used in rubber compounding, where it maintains color stability under thermal processing. Brightness 98%: Anatase Titanium Dioxide HTA-201 with brightness 98% is used in paper coating applications, where it provides high opacity and vivid whiteness. pH Value 7.0: Anatase Titanium Dioxide HTA-201 with pH value 7.0 is used in aqueous dispersions, where it ensures formulation stability and compatibility. Residue on Sieve 0.02%: Anatase Titanium Dioxide HTA-201 with residue on sieve 0.02% is used in adhesive bonding agents, where it prevents agglomeration and provides uniform particle distribution. Volatile Matter 0.3%: Anatase Titanium Dioxide HTA-201 with volatile matter 0.3% is used in masterbatch production, where it minimizes processing loss and optimizes color consistency. |
Competitive Anatase Titanium Dioxide HTA-201 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.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@ascent-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Over the last decade, working on both sides of the manufacturing industry, I’ve seen the difference a reliable titanium dioxide can make. Anatase Titanium Dioxide HTA-201 pushes beyond the ordinary. In my experience with coatings, plastics, and even some niche food applications, quality often comes down to how consistently a product performs. This isn’t just about whiteness or opacity—it’s about stability during processing, purity of the finished item, and how little hassle it brings to daily operations.
HTA-201 takes the anatase form—respected for its brightness and softer touch in use—and gives it a focused engineering. It stands out by offering a controlled particle size distribution, keeping the end-product smooth while boosting coverage. The pigment disperses fast, even in tougher, high-speed industrial mixers. What you’ll notice is the difference in both application and end result: paints look warmer and smoother, plastisol films show a finer finish, and food contact items reach a truer white with fewer inclusions or yellow undertones.
Looking at its basics, this product rolls out in powder form, easy to transport and store. Practically speaking, you don’t fret as much over caking or dusting, because the surface treatment on these anatase particles helps with flow and reduces unwanted clumping. That means less downtime clearing feedblocks or hoppers, something shop managers will nod their heads at.
The “HTA-201” model signals a reset from generic anatase products. Many producers push out titanium dioxide with a focus just on basic pigment requirements. But here, the blend balances the typical anatase smoothness with a level of brightness that edges close to rutile grades—a rare feat. Measured side by side, HTA-201 brings a distinct blue tint under certain lighting, brighter than older anatase pigments, useful for subtle color corrections in coatings and polymer batches.
Its structure comes without gimmicks: average particle size sits in the sweet spot for both light scatter and easy dispersion—usually around 200 nanometers. That lets compounding equipment chew through loads without gumming up, hitting the right reflectance, and avoiding gritty finishes. The mineral purity is tightly managed, so trace contaminants that might stain food containers or lower UV resistance in films stay minimal.
I’ve seen HTA-201 in action across paints, plastics, rubber, and even some paper coatings. In thermostable film production, its low impurity profile allows for reliable coloring without the risk of off-gassing or yellowing. In the coatings world, the pigment doesn’t oversaturate—the paint keeps its structure even under thin-spread conditions, saving on raw material costs.
One plastics plant I visited switched to this model and saw fewer rejects due to surface streaks. Their quality control staff traced that improvement back to the more consistent particle sizing and lower residual moisture—factors that not only help with color presentation, but also simplify extrusion and molding. From my seat, that’s where specifications really matter: reducing rejected batches and keeping operators in their comfort zone, not fiddling with extra adjustments or cleaning up frequent clogs.
Rubber goods often struggle with pigment dispersion, especially in fast-moving calenders. By moving to HTA-201, some factories managed to drop mix times, with sheets rolling easier and less surface mottle creeping in. These are the sort of practical gains that bulk data alone rarely illustrates, but technicians and floor managers swear by.
It’s tempting to treat all titanium dioxides as interchangeable. But after so many years troubleshooting line hiccups and hunting pigment flaws, I know that’s not the case. Basic anatase grades often show wider variation in brightness and heavy metal content—fine if you’re tinting for construction boards, problematic if your brand relies on crisp color or food-safe purity.
HTA-201 excels by screening out the impurities that otherwise creep into plastics for baby bottles, wrap films, or food trays. That trust in compositional reliability starts with where the material is sourced and how it’s ground. This isn’t just technical detail: food regulators have grown stricter, so the assurance of ultra-low arsenic and lead levels helps plants avoid compliance headaches and costly recalls.
Unlike rutile grades, which trade off some whiteness for toughness and weatherability, HTA-201’s anatase structure shines in indoor, food-packaging, and skin-contact applications. While hardier coatings might chase rutile, those with a focus on whiteness, visual warmth, and lower photoactivity turn to premium anatase for a reason. Its soft undertone and absence of a cold bluish cast lets brands deliver friendlier whites—an underappreciated but marketable detail for consumer goods.
Nobody wants a dusty, unpredictable powder in their workspace. HTA-201’s flow treatment pays off with cleaner pours, less airborne dust, and easier hopper feed—even if the plant climate wavers between humid and dry. Some powders choke feeders or coat every exposed surface; not this one. Fewer spills and less time spent mopping up pigment means more time spent hitting production targets.
The technical documents point out low solubility and inertness—standards for anatase—but on-the-floor feedback from veteran operators tells the practical story. They trust this pigment in processes with strict hygiene demands. In my eyes, that’s a blend of technical rigor and long-earned worker insight—the sort of evidence most industry old-timers value more than glossy product brochures.
Sustainability has evolved into more than a buzzword. Every batch of pigment with tighter specs on impurities or less waste runoff nudges the industry closer to environmental targets. HTA-201’s clean processing leaves less behind, both as production scrap and as chemical residue. A reduced cleaning burden means lower water and solvent use. For shoppers scanning for food contact safety, low heavy metal migration brings confidence.
On the emissions side, facilities using more consistent pigments sidestep excess batch heating and do not need to overprocess. Cutting down on production steps means a lighter carbon footprint—not just in the pigment’s own lifecycle, but across the chain of consumer goods it enters.
I’ve talked with engineers overseeing line upgrades and lead chemists running blind pigment comparisons. Over time, certain materials build a reputation. HTA-201 keeps finding its way to the shortlist, mentioned for its trouble-free blend-in, accuracy of tone, and freedom from hidden contaminants. If you ask someone who’s run mass-market whiteboard production or food-service trays, they’ll point to pigments like this that cut drama out of the job.
These aren’t empty claims. Studies published by regional industry associations confirm that products based on anatase structure have a narrower particle size curve, which translates to more stable color and lower additive requirement downstream. HTA-201 demonstrates those benefits in formulations where brighter, warmer white tones help differentiate end products—and where technical managers count grams of pigment saved across the fiscal year.
Manufacturers face daily challenges: fluctuating raw materials, changing customer specs, rising regulatory hurdles. Products like HTA-201 don’t promise magic, but they simplify key parts of the workflow. Fewer pigment variables cut down the need for constant formulation tweaks. I’ve advised teams rolling out new baby toy lines or prepping cosmetic packaging, and every time, a consistent pigment base lets them focus on what makes their goods stand out.
There’s always more to be done. The industry calls out for even lower impurity levels and pigment batches designed for rapid shift between applications, from food to medical goods. Research points to better encapsulation technology, possibly emerging first with products like HTA-201, making sure particles don’t prematurely react with sensitive ingredients or processing aids.
Partnerships between pigment suppliers and processors lead to tailored grades, improved handling procedures, and clear feedback loops. Open dialogue—something I have always encouraged during factory visits—ensures manufacturers don’t just buy pigment, but find a long-term ally for safer, cleaner, and more vibrant production lines.
The bar for titanium dioxide keeps rising. Consumers notice product quality, regulators push for lower traces of metals, and brand owners ask for environmental responsibility. In real-world settings, these aren’t boxes to tick—they define day-to-day competitiveness.
HTA-201 represents how a focused approach to mineral selection and grinding delivers tangible advantages. For the manufacturing teams I’ve worked with, reliable performance means less troubleshooting, more uptime, and better customer satisfaction. Whether in a multinational’s automated plant or a niche local workshop, the story remains the same: a superior pigment makes everything downstream go smoother.
Manufacturing is about more than numbers on a datasheet. It’s about trust, repeatability, and the small margins that define profits and reputations. Anatase Titanium Dioxide HTA-201 shows that with the right attention to detail, incremental improvements add up—whether you measure them in cost savings, regulatory compliance, or simply smoother shifts on the production floor.
Customers grow savvier year by year. They check food labels, demand BPA-free plastics, and question unfamiliar chemical names. By consistently exceeding food contact standards, HTA-201 creates peace of mind not just for plant managers but for end consumers. Modern supply chains thrive on that transparency. Trust isn’t built overnight, but pigmented products earning top marks batch after batch will do more to reassure the market than any advertising claim ever can.
I’ve worked with product teams who faced recalls when pigment grades faltered—not from gross negligence, but from subtle shifts in mineral content or processing. All it takes is a single off-test batch to set off months of damage control. Pigments like HTA-201, with tighter process discipline and published test results, limit such risks, and that delivers not just cleaner paperwork but cleaner reputations.
In my time moving between labs, shop floors, and boardrooms, the real story of materials like HTA-201 keeps coming back: they set a new standard for reliability and trust. The pigment itself might look simple—a clean white powder, easy to miss in a crowded storeroom—but what it brings to manufacturing ripples outward. Shorter batch changeovers, lower barrier for new product launches, and peace of mind in highly regulated sectors—all spring from the same focus on consistent, clean materials.
The customer at the end of the chain may never hear the name HTA-201. They may just notice creamier paints, shinier plastics, or safer packaging. Those everyday improvements trace back to quiet choices upstream, like selecting this titanium dioxide model for its steady results. The best testament? Lines stay up longer, workers deal with less hassle, and trusted brands keep their promises to buyers. That’s where material choice transforms from a technical detail to a backbone of modern industry.
