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XM-DHR966
XIMI
In order to solve the high cost, later invented high titanium powder, lithopone, forging white and other products, but the comprehensive performance is not as good as titanium dioxide. The widely used high titanium powder can partially replace titanium dioxide.
97% Non Toxic Titanium Dioxide Powder XM-DHR966:
TiO2 content % | ≥94 | |||
brightness | ≥98 | |||
Matter volatile at 105°C % | ≤0.8 | |||
Hydrotrope % | ≤0.5 | |||
Residue on sieve 45 μm % | ≤0.02 | |||
Color compare with standard | Not lower than | |||
Tinctorial strength (Ranolds) | ≥1850 | |||
Tinting strength compare with standard % | ≥112 | |||
PH of suspension, aqueous solution retainted | 6.5-8.5 | |||
Oil absorption g/100g | ≤20 | |||
Resistivity of aqueous extract Ωm | ≥80 | |||
Rutile crystal form conversion % | ≥98.0 | |||
Average particle diameter μm | 0.20-0.26 | |||
Inorganic coating | Zirconium-Aluminium | |||
Organic matter | Yes |
In order to solve the high cost, later invented high titanium powder, lithopone, forging white and other products, but the comprehensive performance is not as good as titanium dioxide. The widely used high titanium powder can partially replace titanium dioxide.
97% Non Toxic Titanium Dioxide Powder XM-DHR966:
TiO2 content % | ≥94 | |||
brightness | ≥98 | |||
Matter volatile at 105°C % | ≤0.8 | |||
Hydrotrope % | ≤0.5 | |||
Residue on sieve 45 μm % | ≤0.02 | |||
Color compare with standard | Not lower than | |||
Tinctorial strength (Ranolds) | ≥1850 | |||
Tinting strength compare with standard % | ≥112 | |||
PH of suspension, aqueous solution retainted | 6.5-8.5 | |||
Oil absorption g/100g | ≤20 | |||
Resistivity of aqueous extract Ωm | ≥80 | |||
Rutile crystal form conversion % | ≥98.0 | |||
Average particle diameter μm | 0.20-0.26 | |||
Inorganic coating | Zirconium-Aluminium | |||
Organic matter | Yes |