Pioneering synthetic material manufacturing for specialty chemical applications, delivering unmatched opacity and brilliance for high-performance industrial coatings.
Setting the global benchmark for specialty chemical pigments through advanced synthetic processes.
◆ The r 2195 titanium dioxide stands as a pinnacle of pigment technology within the specialty chemical manufacturing sector. It is engineered specifically for high-durability synthetic materials, offering an industry-leading balance of scattering power and UV resistance.
◆ Utilizing a proprietary surface treatment process, r 2195 titanium dioxide ensures superior dispersibility in complex polymer matrices. This technical advantage reduces formulation time while maximizing the brightness and weatherability of the final synthetic product.
Integrating cutting-edge synthesis with rigorous industrial control systems.
Optimized particle size distribution for maximum light scattering efficiency.
Advanced surface treatment for maximum compatibility with specialty synthetic polymers.
Closed-loop synthesis ensuring zero contaminants for high-end industrial requirements.
Comparative analysis of R 2195 efficiency against standard industrial titanium dioxide.
Comprehensive physical and chemical properties of R 2195 TiO2 for formulation precision.
| Material Property | Test Method | Standard Value | Tolerance | Unit | Grade |
|---|---|---|---|---|---|
| TiO2 Content | XRF Analysis | 93.5 | ±0.2 | % | Premium |
| Average Particle Size | Laser Diffraction | 240 | ±15 | nm | R-Series |
| Oil Absorption | ASTM D281 | 18.4 | ±1.0 | g/100g | Specialty |
| Water Content | Karl Fischer | 0.15 | Max | % | Industrial |
| Refractive Index | Abbe Refractometer | 2.73 | ±0.01 | nD20 | Pure |
| Whiteness Index | CIELAB Spectro | 98.2 | ±0.5 | W | Ultra |
| Bulk Density | Tapped Density | 1.45 | ±0.1 | g/cm3 | Standard |
| Surface Area | BET Analysis | 12.8 | ±1.2 | m2/g | Specialty |
Proven performance across diverse industries.
Implemented R 2195 to enhance the opacity and UV reflection of luxury car finishes, reducing the required pigment volume by 15%.
Integrated R 2195 into high-density PVC for structural pipes, significantly increasing the weatherability in extreme tropical climates.
Combined R 2195 with synthetic resins for hull coatings, achieving extreme opacity and salt-spray resistance for oceanic vessels.
Utilized R 2195 to create heat-reflective white coatings for urban buildings, reducing internal building temperatures by an average of 3°C.
Tailored solutions for demanding environments.
Used in high-temperature synthetic coatings for fuselage interiors to ensure maximum light reflection and thermal insulation.
Optimized for high-concentration masterbatches in PE and PP synthetic materials for industrial packaging.
Providing non-reactive, medical-grade opacity for synthetic housing of surgical equipment and diagnostics.
Integration into waterproof synthetic fabrics for high-reflectivity outdoor gear and industrial tents.
Advanced formulation for electrostatic powder coatings used in outdoor metal furniture and architectural frames.
Providing structural opacity for FRP (Fiber Reinforced Plastic) panels in transportation and marine housing.
Rigorous quality management systems ensuring every batch of R 2195 meets identical physical and chemical specifications.
Guaranteed absence of restricted hazardous substances, ensuring safe application in global synthetic material exports.
Each shipment is accompanied by a Certificate of Analysis (CoA) verified by precision digital spectrophotometry.
Our commitment to quality is validated by third-party audits and global synthetic material standards.
Expert answers to common technical and commercial inquiries.
The r 2195 titanium dioxide uses a refined surface treatment that prevents agglomeration in polymer melts, ensuring higher brightness and structural integrity compared to standard grades.
R 2195 is specifically engineered to absorb and reflect UV radiation, which significantly slows the degradation of synthetic polymers, extending the outdoor lifespan of the finished product.
Yes, R 2195 is produced in a controlled environment that minimizes contaminants, making it suitable for non-reactive medical device housings and synthetic components.
Depending on the volume and destination, typical shipping lead times range from 14 to 30 days, with sample batches delivered within 5 days.
We employ a fully automated synthesis line with real-time sensor monitoring and post-production spectrophotometric validation for every single batch.
While designed for broad compatibility, we recommend a sample test for specific high-viscosity resins to optimize the dispersion parameters.
Partner with a leader in specialty chemical manufacturing. Request your high-performance R 2195 TiO2 sample today.
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