|
HS Code |
443950 |
| Product Name | Titanium Dioxide NR950 |
| Chemical Formula | TiO2 |
| Appearance | White powder |
| Titanium Dioxide Content | ≥ 98% |
| Rutile Content | ≥ 98% |
| Surface Treatment | Zirconium and Aluminum |
| Average Particle Size | 0.25 µm |
| Oil Absorption | ≤ 20 g/100g |
| Specific Gravity | 4.0 g/cm³ |
| Ph Value | 6.5–8.0 |
| Residue On Sieve 45µm | ≤ 0.05% |
| Whiteness | ≥ 98% |
| Tinting Strength | ≥ 1100 |
| Moisture Content | ≤ 0.5% |
| Volatile Matter At 105c | ≤ 0.5% |
As an accredited Titanium Dioxide NR950 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Titanium Dioxide NR950 is packaged in a 25 kg white kraft paper bag, displaying the product name, grade, and manufacturer information. |
| Container Loading (20′ FCL) | Titanium Dioxide NR950 is loaded in 20′ FCLs, typically packed in 25kg bags, totaling approximately 20 metric tons per container. |
| Shipping | Titanium Dioxide NR950 is shipped in 25 kg multi-layer paper bags with inner polyethylene liners to prevent moisture ingress. Larger quantities are available in jumbo bags or on pallets. All packaging complies with safety regulations to avoid contamination and facilitate easy handling during transport and storage. Store in a dry, well-ventilated area. |
| Storage | Titanium Dioxide NR950 should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of moisture. Keep the container tightly sealed to avoid contamination. Avoid storage with incompatible materials such as strong acids and bases. Ensure proper labeling and prevent dust formation. Store at room temperature and follow local regulations for chemical storage. |
| Shelf Life | Titanium Dioxide NR950 has a shelf life of 24 months when stored in a cool, dry, and well-ventilated place. |
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Purity 98%: Titanium Dioxide NR950 with purity 98% is used in high-quality paint formulations, where excellent brightness and color retention are achieved. Particle Size 0.23 µm: Titanium Dioxide NR950 with particle size 0.23 µm is used in plastics manufacturing, where enhanced opacity and dispersion are ensured. Surface Treatment Inorganic Coated: Titanium Dioxide NR950 with inorganic coating is used in outdoor coatings, where improved weather resistance and UV shielding are provided. Rutile Structure: Titanium Dioxide NR950 with rutile structure is used in automotive coatings, where superior gloss and chalking resistance are delivered. Oil Absorption 13 g/100g: Titanium Dioxide NR950 with oil absorption of 13 g/100g is used in printing inks, where optimal viscosity control and print sharpness are maintained. pH Value 7.2: Titanium Dioxide NR950 at pH value 7.2 is used in cosmetic applications, where skin compatibility and stable whitening are accomplished. Tinting Strength 110%: Titanium Dioxide NR950 with tinting strength 110% is used in paper coatings, where vibrant coloration and reduced pigment use are achieved. Melting Point 1855°C: Titanium Dioxide NR950 with melting point 1855°C is used in ceramic glaze production, where high thermal stability and consistent coloration are provided. Volatile Matter ≤ 0.5%: Titanium Dioxide NR950 with volatile matter ≤ 0.5% is used in powder coatings, where minimal loss in mass and uniform finish are ensured. Stability Temperature 600°C: Titanium Dioxide NR950 with stability temperature of 600°C is used in industrial coatings, where resistance to high-temperature degradation is maintained. |
Competitive Titanium Dioxide NR950 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@bouling-chem.com.
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Tel: +8615371019725
Email: sales7@bouling-chem.com
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Producing Titanium Dioxide NR950 calls for continuous attention to detail, right from incoming raw material selection to the very last particle grading step. Over the years, engineers and technicians at our facility have refined the process to favor stability during every batch. Tight filtration and professional calcination standards keep impurities to a minimum. Regular hands-on checks ensure the NR950 model remains a reliable choice for manufacturers who look to achieve high brightness, hiding power, and whiteness in the final product.
Customers see stable performance in applications demanding strong opacity, color retention, and dispersibility. This stability matters in many factories where color consistency directly affects yield and the bottom line. Designed to work well even under variable humidity or temperature, NR950 particles resist yellowing or chalking that sometimes sneaks in with lesser grades.
Paint and coatings producers turn to NR950 for its particle fineness and tightly controlled distribution. We maintain that tight cut through careful ball mill control and laser diffraction checks through every batch. Architectural coatings benefit where exterior paints must outlast weathering cycles and direct sunlight. End users who revisit our technical hotline typically report fewer complaints regarding fading or color drift, and often show off real-world paint panels years after initial application.
Plastic compounders have shared lab data from sheet extrusion and blow molding trials. Their results point to easy integration without agglomeration at higher dosages, helping avoid costly regrinds. There’s less downtime from resin filtration swaps because the discreet, rounded particle edges slide more easily in high-speed mixing and injection. This does more than save energy; it prevents melt fracture or streaking — issues that often surface with broader particle distribution ranges common in commodity pigments.
In the pulp and paper sector, teams responsible for specialty grades such as high-brightness poster board or high-opacity packaging run NR950 for its minimal solubility and even dispersion. Enzyme and binder consumption run lower, and finished rolls maintain print gloss even after months of warehousing. Frequent plant audits with our partners turn up fewer deposits on dryer cans and less pick-up on doctor blades due to the well-controlled surface treatment protocol we deploy.
The key difference starts with the surface treatment step at our plant. We rely on a well-developed hydrophilic coating that balances both inorganic and organic agents, a result of hundreds of pilot batches tested across end-user scenarios. This treatment not only helps with initial wet-in during dispersion but also with long-term storage stability in high-shear environments, such as emulsion paints or waterborne systems. Coating thickness and uniformity undergo strict batch-to-batch audits, with staff cross-checking each hour’s output.
Competitors’ grades often take shortcuts with single-agent coating or reduce milling times, which can lead to uneven surfaces or unwanted reactivity in some resin types. Direct feedback from panel makers and film converters shows that our NR950 gives less yellowing after accelerated UV exposure, thanks to our special calcination curve management and chlorine washing stage — a detail lost in the big-batch economics of generic rutile pigment manufacture.
Field service reports frequently reveal fewer incompatibility issues where NR950 is compared next to cheaper, untreated anatase or commodity rutile grades. Issues like speckling in PVC calendering, or opacity loss in thin film PP, seldom appear on test runs using our careful distribution controls. This gives customers the green light to dial back pigment loading without risking finished product quality.
Keeping NR950’s performance solid over production cycles draws on our plant’s decades-long process knowledge. Each shift rotates hourly visual inspections under calibrated D65 lighting; even the clean-room operators who monitor wet cake pH and filtration residue play a central part. Production engineering works with QA staff to tweak calciner residence time, whenever the spectral whiteness drifts by more than a point off standard.
Our own R&D line looks not just for typical chemical composition or phase purity, but for how NR950 behaves in downstream blends. We run blind comparative drawdowns in real architectural paint, rigid PVC, and bulk-printed specialty papers every month. This hands-on tracking lets the technical service group advise partner factories on mixer design and process tweaks — value additions missing from pure spec sheet data.
Customer plant trials consistently confirm that the slurry flow, dispersion times, and filter plug rates run lower than grades that skip the multi-stage washing and micronizing treatments. Customer reports highlight steady gloss increase, tighter color standards, and easier clean-up on mill runs — all points where our team makes careful process adjustment.
Manufacturing specialty pigments brings responsibility — not just for product quality, but for employee wellbeing and the local environment. Our plant invested in closed-loop filtrate recovery to keep titanium losses under control and reduce effluent discharge. Air extraction and dust collection systems draw real reviews from line workers and maintenance engineers, who notice cleaner air and less abrasive dust in adjacent areas.
By monitoring batch emissions, we trim sulfur oxides and chlorine levels during calcination. These steps support not just regulatory compliance but also onsite safety. On-the-ground workers who load mixers or test samples face less exposure to fume or fine powder. We hear from visiting customers that these investments make a visible difference — not just on paper, but in worker comfort and long-term retention.
From the manufacturer’s floor, the story often starts after the sample shipment leaves our dock. Customers in paint, plastic, and paper routinely share application results that help us tune the product even further. Take extrusion film processors: direct comparison tests show that NR950 gives consistently higher light scattering in single-pass blends than untreated rutile grades supplied through tradeware. The smoother pellet mix and controlled fineness play visible roles in steady film gauge, fewer streaks, and better throughput rates.
In paint shops, in-can appearance after freeze-thaw or extended shelf life is another practical measure that shapes our approach. NR950’s careful pH and salt wash protocol proves itself in repeated customer storage trials by minimizing layering, syneresis, or gelling. This gives plant managers more flexibility in logistics planning, as fewer batches need urgent remix before filling lines.
Print houses on fast runs for coated posters or food packaging need clean print lay-down, high gloss, and no back-transfer. They send back samples showing how core-shell tailored NR950 particles avoid print mottle or bronzing compared to previous generic shipments. We document these advances through regular site visits, maintaining a close feedback loop with both lab and production teams at the customer end.
We stay away from untested claims or blanket marketing terms. Instead, our lab and customer technical teams share real setups and line numbers. For example, teams working on PVC pipes or extruded boards consistently achieve faster coloring runs, with less tip fouling or plug formation using NR950. The product’s reliable chemical stability resists both UV and thermal yellowing, extending product shelf life and cutting returns from discoloration complaints — not just for premium runs, but even for commodity applications.
In large-format wall paints, one plant’s adoption of NR950 cut down rework runs after summer production, since color matching held across both tint and white base runs. Analysts traced this to reduced lot-to-lot variation in particle surface chemistry — a direct outcome of how we monitor phase ratios and grind curves across all lines. These results give users real-world confidence and lower overall cost through predictable batch-to-batch performance.
We learn from hands-on repetition, not just from bench-scale tests. Each new production run gets real application trials. In PE film and pipe extrusion, lab teams report reduced die build-up and fewer flow disruptions by switching to NR950, as the clean surface treatment prevents resin-pigment incompatibility. Datapoints come directly from extruder operators tracking backpressure spikes and reject rates — evidence that shapes our ongoing QA protocols.
Paint shop blenders find easier let-down into resins, as initial dispersion goes cleaner and faster. Backed by our collaborative mixing studies, the lower agglomeration rates mean faster color development and minimal floating. Finished cans come off the plant floor with finer grind checks, as measured by Hegman gauge and colorimeter — all tracked and cross-checked with customer feedback.
Paper plants updating their poster board formulations see run-time consistency, confirmed by fewer calendar marks and more predictable print fidelity. Operations staff find that switching to NR950 refines product gloss and brightness values, which stand up in competitive shelf-light tests and real-world handling, not just controlled lab panels.
Industry veterans know that not all titanium dioxide is the same. NR950 earns its place through consistent investment in process stability and field-proven performance. Customers who have trialed several competing rutile grades report clear advantages in product cleanliness, finish brightness, and lower additive demand with NR950. These differences echo across daily manufacturing metrics and delivered product quality — not just under magnifying glass scrutiny, but out in actual warehouses, retail shelves, packaging lines, and construction sites.
Unlike so-called “universal” grades, which try to cover all applications at the expense of performance, our plant focuses strictly on fine-tuning surface treatment and particle size for targeted use cases. Paint manufacturers get fewer callbacks due to color drift or easy chalking; plastic compounders run higher filler loads without black specs or flow lines; paper converters post whiter, glossier boards with sharper print registration.
Our long-term field engineers remain connected to user sites, not just headquarters. They troubleshoot minor process snacks onsite — from color streaks in batch paint tanks to extrusion surge. Feedback returns directly to the process team so each batch gets incrementally better. This cycle of boots-on-the-ground technical service, hands-on monitoring, and practical adjustment forms the backbone of NR950’s standing in the market.
The discipline of producing NR950 means learning from both big wins and small setbacks. QA teams listen carefully when customers call about shipping haze, pigment settling, or unexpected application quirks. The solution doesn’t come from a standard reply, but from collaborating with operators at both ends to adjust blend ratios or advise on process tweaks. Our customer visits and joint trouble-shooting sessions with third-party engineers keep us alert to incoming trends and shifting needs — from changing regulatory standards to new resin chemistries.
As technical requirements evolve, our process teams experiment with new surface modifiers and process templates, always measuring results inside end-user formulations. This practical, field-driven research model gives NR950 strong staying power as batch, coating, and color standards tighten with each market cycle.
Creating Titanium Dioxide NR950 is far more than meeting specs printed on a label — it’s the result of cumulative experience from the factory floor, supported by daily feedback from industry partners. The pigment’s robust brightness, color integrity, and stability don’t appear by chance, but from investment in repeatable process control, targeted surface chemistry, and hands-on field validation. This approach reduces trial variability and supports end users with reliable results, batch after batch.
Every kilogram of NR950 that ships out reflects the practical knowledge, rigorous standards, and persistent troubleshooting of everyone from plant maintenance to application engineers. Unlike generic bulk grades, it stands apart for those looking to solve real-world product challenges and maximize line efficiency across paints, plastics, and papers. This experience-driven manufacturing keeps us focused on delivering quality that holds up, both in test data and in the realities of day-to-day use.
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