Titanium dioxide IUPAC name: Titanium(IV) oxide, Titanium Dioxide Anatase; Titanium Oxide, Titanium Dioxide modified; Hombikat; E 171, Titania (8.23 m2/g) (nitrogen BET specific surface area) Molecular Formula: TiO2 Molecular Weight: 79.87 CAS No.: 13463-67-7 Einecs: 236-675-5 Appearance: White powder Properties: Titanium(Titanium dioxide) chemical stability, under normal circumstances, not react with most substances. In nature, there are two kinds of titanium dioxide crystal: anatase and rutile type, anatase (Anatase) referred to as A type, and rutile (Rutile) referred to as R-type, have a stable lattice is an important white pigment and porcelain glaze material, compared with other white pigments have superior whiteness, color strength, hiding power, weatherability, heat resistance, and chemical stability, in particular, is not toxic. Specification: Standard Q/LCHY01?ˆ”2004 Rutile type Titanium Dioxide Anatase type Titanium Dioxide Chlorination process R1930 general purpose A200 high dispersibility R920 Special use A100 high whiteness, high grade printing ink Sulfuric acid process R618 general purpose BA0101 general purpose R616 general purpose A101 general purpose R688 special for plastic&steel A102 general purpose R699 special for colour master batch B101 special for colour master batch R609 special for paint & coating B101 special for paint &coating R617 special for gusset plate, tubing, rubber B101 PVA special used nanno-grade titanium dioxide ceramics grade titanium dioxide ceramics grade titanium dioxide chemical fiber grade titanium dioxide Item Ti02 % Rutile type conversion ate, % Color,compared with standard Samples Whiteness Tinter reducing power, compared with standard sample 105 Volatile matter: Water-soluble Matter PH value of aqueous suspension Oil Absorption(g/100g) Hiding power Reduce on sieve 45μm, % R1930 ≥93 ≥98 approximately ≥ 96 ≥100 ≤0.5 ≤0.5 P7.5-8.0 value of aqueo7.5-us suspension ≤18 ≤20 R920 ≥93 ≥97 approximately ≥ 98.5 ≥92 ≤0.4 ≤0.5 P8.0-10.0 ≤20 ≤0.01 R618 ≥94 ≥97 approximately ≥ 95 ≥100 ≤0.8 ≤0.5 P7.0-8.0 ≤23 ≤25 R616 ≥94 ≥97 approximately ≥ 96 ≥100 ≤0.5 ≤0.5 P6.5-8.0 ≤22 ≤24 R688 ≥95 ≥98 approximately ≥ 96 ≥100 ≤1.0 ≤0.3 P6.5-8.0 ≤23 ≤0.1 R699 ≥95 ≥98 approximately ≥ 98 ≥100 ≤0.5 ≤0.3 P6.5-7.0 ≤22 ≤0.05 R609 ≥93 ≥98 approximately ≥ 98 ≥100 ≤0.75 ≤0.3 P6.5-8.0 ≤23 ≤25 ≤0.01 R617 ≥92 ≥98 approximately ≥ 96 ≥100 ≤0.5 ≤0.4 6.5-8.0 ≤18 ≤20 ≤0.04 A200 ≥98.5 approximately ≥ 98 ≥105 ≤0.2 ≤0.2 P6.5-8.0 ≤22 ≤0.05 A100 ≥99 approximately ≥ 96 ≥110 ≤0.2 ≤0.2 P6.5-8.0 ≤22 ≤0.05 BA0101 ≥98 approximately ≥ 98 ≥100 ≤0.5 ≤0.4 P6.5-8.0 ≤22 A101 ≥93 approximately ≥ 96 ≥100 ≤0.5 ≤0.5 P6.5-8.0 ≤18 A102 ≥98.5 approximately ≥ 96 ≥100 ≤0.5 ≤0.5 6.5-8.0 ≤24 ≤0.05 Packing: 25/50kg plastic woven bag, or paper bag, 1000kg jumbo bag, or as the clients?ˆ™ request. Use: Titanium dioxide is widely used in paint, coatings, plastics, rubber, ink, paper, chemical fiber, ceramics, daily chemical, medicine, food and other industries. Storage: Titanium dioxide should be stored in a cool, dry, well-ventilated area in tightly sealed containers that are labeled in accordance with OSHA's Hazard Communication Standard. Containers of titanium dioxide should be protected from physical damage and should be stored separately from lithium. Because containers that form |