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All Right Reserved
|
HS Code |
111618 |
| Product Name | HTA-201 Anatase Titanium Dioxide |
| Chemical Formula | TiO2 |
| Crystal Form | Anatase |
| Appearance | White powder |
| Titanium Dioxide Content | ≥98% |
| Oil Absorption | ≤26 g/100g |
| Ph Value | 6.5-8.0 (aqueous suspension) |
| Specific Surface Area | 10-25 m²/g |
| Average Particle Size | 0.2-0.4 μm |
| Moisture Content | ≤0.5% |
| Residue On Sieve 45μm | ≤0.05% |
| Whiteness | ≥98% |
| Loss On Ignition | ≤0.5% |
As an accredited HTA-201 Anatase Titanium Dioxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | HTA-201 Anatase Titanium Dioxide is securely packaged in a 25 kg white woven bag with inner polyethylene lining for moisture protection. |
| Container Loading (20′ FCL) | 20′ FCL loads approximately 22 metric tons of HTA-201 Anatase Titanium Dioxide, packed in 25kg bags, securely palletized for shipment. |
| Shipping | HTA-201 Anatase Titanium Dioxide is securely packed in 25 kg paper or plastic bags with inner PE liners, ensuring moisture protection. Shipments can be arranged on pallets or in bulk bags for larger orders. Proper labeling and handling precautions are observed to meet international shipping and safety regulations. |
| Storage | **HTA-201 Anatase Titanium Dioxide** should be stored in a cool, dry, well-ventilated area, away from moisture, heat, and direct sunlight. Keep the container tightly sealed when not in use to prevent contamination and avoid dust formation. Store away from incompatible materials such as strong acids and bases. Use appropriate personal protective equipment when handling the product. |
| Shelf Life | HTA-201 Anatase Titanium Dioxide has a shelf life of 24 months when stored in a cool, dry, and well-sealed container. |
Competitive HTA-201 Anatase Titanium Dioxide prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365186327 or mail to sales3@liwei-chem.com.
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Tel: +8615365186327
Email: sales3@liwei-chem.com
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Working directly in the manufacturing facilities, our team deals with titanium dioxide every day. We see the raw forms, the changing conditions on the production line, and the impact of every small adjustment. HTA-201 displays a balance between particle size and brightness that consistently satisfies demanding applications such as paints, inks, and plastics. We have taken feedback from industry users, and improved production so that this grade meets strict whiteness targets while holding up during rigorous mixing and processing conditions.
Our experience has taught us that the right anatase grade matters. While rutile grades often draw attention for outdoor durability, the anatase crystalline structure in HTA-201 delivers reliable dispersibility, especially where high whiteness and soft tinting are critical. Users in paper, coatings, and masterbatch applications report that HTA-201 practically handles smooth processing on common industrial lines. Working on the factory floor, we prioritize running quality controls that guide batch consistency, so the product that leaves the plant matches the exacting standards our partners expect.
Years of direct production experience have taught us that HTA-201 stands apart from generic anatase grades because of our process controls. We use controlled hydrolysis and calcination at temperatures optimal for anatase formation, ensuring the product remains free-flowing during transport and storage. Large-scale filtration and washing remove soluble residues; this gives HTA-201 a clean, neutral surface that integrates with both simple and complex formulations. The typical average particle size falls in the fine range, arising from quality raw ore selection and precise grinding equipment. Too coarse, and dispersion struggles; too fine, and cost runs high. HTA-201 lands in that needed sweet spot, avoiding common headaches our customers have shared about other manufacturers’ grades.
In bulk production, we measure whiteness visually and instruments confirm the CIE whiteness value. The data show that our process produces a bright powder that boosts coverage in finished products, reflecting more light and hiding substrate colors. Our plant operators notice if a certain batch veers off target, so we address it before packing. Moisture content is controlled tightly; excess water can ruin shelf-life or complicate downstream mixing, and we minimize this risk through natural gas drying and well-sealed bags.
Looking at the products that reach end-users, HTA-201’s role in paper coatings shows one of the strongest differences from rutile-based grades. Anatase brings a gentler tint and a higher initial brightness, which our partners in fine printing and writing papers rely on for top-tier appearance. In plastics manufacturing, particularly for injection-molded parts and masterbatch, our customers find that HTA-201 doesn’t clump or form agglomerates as often as some slow-reacting titanium dioxide can. This comes from our consistency in sizing and our efforts to minimize contaminant ions.
From firsthand work with the pigment as it drops from calcining furnaces into storage silos, we have seen how easily the powder mixes with most polymer resins. Our customers who produce high-opacity films comment on how small adjustments to loading rates create consistent shade from batch to batch. We know which process variables affect tinting strength best because we’ve calibrated our own grinders and classifiers, choosing airflow and mesh sizes so the finished pigment works smoothly in factory setups across several countries.
HTA-201 cannot compete with nano-reinforced additives or fancy surface treatments designed for the most severe exterior paint exposure. But technical users tell us it excels as a cost-efficient, reliable white pigment in applications where UV light and outdoor carbonation don’t pose major threats. Over the years, customers in the indoor coatings space have told us that the more neutral blue undertone of anatase, as found in HTA-201, gives cleaner color, especially in pastel and light-hue paint batches. End users remark how their products maintain color evenness longer during routine storage and handling. To those who once used rutile pigment for all applications, we suggest running real-world trials; many switch to HTA-201 once they witness the depth and brightness their products achieve.
In adhesives and elastomers, processing teams have found that HTA-201 disperses faster in both water-based and solvent-based categories. Because we keep heavy metal residues and abrasive mineral content low, roll and blade wear is lower compared to some cheaper alternative grades. The result is a longer uninterrupted production time—a benefit that only becomes clear with direct factory experience and continuous improvement.
Direct oversight on the production line brings clear benefits in quality management. Each lot of HTA-201 gets physically tested—beginning from titration accuracy through to the sieving and oil absorption characteristics that influence pigment suspension and mixing ease. Over time, we have streamlined the process to cut batch variability. Operators track pH and conductance in the final powder; stable metrics on these numbers mean easier predictability for downstream formulations.
Feedback from manufacturers using HTA-201 in high-gloss paints points to the importance of low oil absorption. The pigment incorporates well without dragging, and rheology modifiers blend faster since there are fewer surface impurities or outlier grains of oversized material left after milling. Laboratory and on-the-floor blending shows immediate improvement in color formation, even at lower loading levels—this isn’t just numbers on a datasheet, but feedback from teams running the machines day after day.
Being a manufacturer means learning from decades of trial and correction. We invest in modern filtration, steam sterilization, and minimized environmental emissions, responding to real-world needs for safer, cleaner pigment handling. In developing HTA-201, our team focused on emissions control during ore roasting and on waste stream treatment improvements. This means less byproduct and simpler compliance for customers with sensitive regulatory requirements. HTA-201 ships out with reports on relevant trace impurities—so procurement teams don’t face unexpected issues later.
Technical forums and industry conferences continue to stress traceability and raw material sourcing. HTA-201 offers practical value since its origin and ingredient pathways remain transparent. We track batch numbers and field questions directly, shortening the time from production to troubleshooting for customers building new lines or advanced plastic blends. If engineers come back to us with feedback about issues—sometimes linked to humidity, sometimes to batch shift conditions—these comments drive R&D initiatives before the next quarter’s output. This ongoing loop between factory and end-user remains a key part of why our anatase pigment holds steady as trusted filler and whitening option.
It’s become common for buyers to see a dizzying mix of titanium dioxide offers, sometimes with little more than the word “anatase” on the specification. Our plant leaders know this isn’t enough. HTA-201’s model reflects production trial results, not just a paperwork formality. Matching application to grade type is where the biggest savings and product improvements appear. In wall paints, adding too coarse or impure pigment can lead to yellowing or spot formation, especially after extended shelf storage. True field experience teaches which particles stay brightest, disperse cleanly, and pass through mixing lines without filtering hassles. We designed the HTA-201 around these lessons.
Not all anatase titanium dioxide is suitable for fine coatings or transparent plastics. Many imported brands arrive with variable gloss or minute residues from reused process water. Because our team supervises each process step, from ore separation through final bagging, HTA-201 sidesteps many problems others struggle with—so end-users spend less on blending additives and less time on corrective reworking. The factory outputs a powder engineered to a targeted average particle size, with tests confirming its fit for products needing the highest possible reflectivity and whiteness without blowing budgets.
Many customers ask if rutile grades would perform better—particularly in specialized coatings or outside applications. Rutile’s denser lattice holds up longer in sunlight and in harsh chemicals, but the anatase form within HTA-201 surpasses rutile in pure whiteness and tinting ability. Commercial buyers for plastic masterbatches point out that rutile sometimes adds an unwanted yellow undertone at higher loadings, reducing visual brightness in thin films or light-shade colors. In these cases, HTA-201 shines, giving the right color without influencing the overall tone or finish.
Our technical teams work with paints, paper, textile, and even food packaging producers. Repeatedly, users mention that switching to or blending with HTA-201 streamlines their production steps, particularly in low-temperature and faster-moving lines. Some attempts to substitute calcium or barium sulfate for cost-saving measures have shown drop-offs in opacity and consumer appeal; customer returns or complaints highlight this after launch. Producers return to HTA-201 for projects where finish and appearance decide success.
Anatase grades from other traders can come well below quality control standards. We’ve had to help clients recover when they faced dusting, unexpected oil absorption, or chalking issues due to contaminated batches sourced from unverified channels. These lessons have pushed us to prioritize end-to-end quality checks, visible in the way HTA-201 arrives—ready for production, with batch information and support for technicians adjusting new product introductions.
A common challenge across industries using titanium dioxide stems from pigment dispersion and long-term whiteness retention. We address these by applying targeted surface treatments during production; these make HTA-201 less sensitive to moisture during transport, and easier to blend into both water-based and solvent-based systems. User complaints about clogging or caking have nearly vanished since shifting to our updated drying and screening processes.
The balance in particle size also contributes to smooth extrusion or mixing, with feedback showing that filter cleaning times dropped when switching to HTA-201. By watching the pigment pass through local lines, we observed less filter residue, especially in medium-speed plastic film lines and rotary printing applications. For engineers worried about environmental compliance, HTA-201’s production leaves less effluent than many legacy grades, and our plant procedures simplify documentation during external audits.
Repeated real-world trials in adhesive labs and paper coating tanks have proven HTA-201’s value where lower levels of feathering and more stable viscosity translate into reliable end products—reducing waste and trimming costs tied to mixing mistakes. We draw from these shared experiences to iterate processing steps in our own facilities and recommend new practices to customer sites as trends change.
Measurement isn’t just a formality; it matters in every step. In our factory, lab staff run multiple whiteness, oil absorption, moisture, and dispersibility tests every day. HTA-201 consistently lands in target ranges. While numbers communicate the story to R&D and procurement teams, hands-on feedback from line operators confirms these values. Consistency is evident not only in technical data but in the reduced downtime, superior product appearance, and ease of handling for end-users in industrial settings.
A wide variety of users prefer HTA-201 for different reasons—some focus on process throughput, others on finished look. One plastics team told us their masterbatch extrusion rates increased once they swapped their prior bulk anatase for our HTA-201. Their quality control manager noted fewer hopper blockages and fewer blending reworks. Paper coaters have described brighter surfaces and fewer out-of-spec rolls. Each success story reflects adjustments we’ve made in the plant as new customer needs surface.
Direct responsibility for the finished product matters to us. From ore sourcing and refining, through calcination and finishing, our teams take pride in tracking quality lot to lot. We track analytics on each batch and retain samples from every production run, ready to run extra tests if a customer calls with questions. This practical approach leaves us confident in supporting product launches and new market trials, knowing that every shipment of HTA-201 carries the mark of diligent, hands-on manufacturing skills.
Customers and partners who visit our plants see the reality of our work: plant operators measure, adjust, and check over pigment at key stages, relying on machinery we maintain and calibrate ourselves. Laboratory staff, engineers, and line workers cooperate to pinpoint spots for process improvement and feed those discoveries back into the next scheduling round. There won’t be cut corners or hidden substitutions.
For every inquiry about HTA-201, our team brings long years of hands-on insight from pigment manufacturing. We support customers who need guidance on how to fit anatase into existing paint, plastic, paper, or adhesive systems. If customers want to boost opacity, maximize surface brightness, or adjust undertone without sacrificing process stability, experience points in favor of this model.
No filler solves every challenge. But HTA-201 solves the common ones: brightness, easy processing, predictable results—without surprises. The years spent improving process control and learning from production feedback have resulted in a pigment grade that delivers consistency, reliability, and product value in every shipment we send out.
Selecting a titanium dioxide grade should grow from inside-the-factory learning, not just marketing claims or specification charts. Every order we ship connects to work hours spent refining particle size, washing, and drying—making HTA-201 a real-world solution forged by experience, engineering, and a close link to the industries that rely on high-quality anatase titanium dioxide.
