The present invention relates to fine hollow powder with a titanium oxide shell, obtained by spray drying an exfoliated titania sol, and thin flaky titanium oxide powder obtained by pulverizing the fine hollow powder, and also to processes for producing the same. The present fine hollow powder and t
The present invention relates to fine hollow powder with a titanium oxide shell, obtained by spray drying an exfoliated titania sol, and thin flaky titanium oxide powder obtained by pulverizing the fine hollow powder, and also to processes for producing the same. The present fine hollow powder and thin flaky titanium oxide powder have a distinguished dispersibility and are useful for additives to cosmetics, pigments, paints, etc., and the present fine hollow powder also has a distinguished flowability and is useful for seed particles for flow measurement.
대표청구항▼
1. A fine hollow powder comprising a titanium oxide shell with laminated titanium oxide particles stuck together to form fine hollow powder with the powder having an outer diameter of 0.1 to 5000 μm, wherein the titanium oxide shell has a ratio of outer diameter (D) to thickness (T), D/T, of 50-5,00
1. A fine hollow powder comprising a titanium oxide shell with laminated titanium oxide particles stuck together to form fine hollow powder with the powder having an outer diameter of 0.1 to 5000 μm, wherein the titanium oxide shell has a ratio of outer diameter (D) to thickness (T), D/T, of 50-5,000, wherein the hollow powder, is provided by spraying an exfoliated titania sol and immediately exposing the sprayed exfoliated titania sol to high temperatures for drying. 2. A fine hollow powder according to claim 1, wherein the titanium oxide shell has an outer diameter (D) of 0.1-5,000, μm and a thickness (T) of 1 nm-100 μm. 3. A cosmetic which comprises a fine hollow powder of the claim 1. 4. A seed particle for flow measurement, which comprises a fine hollow powder of the claim 1. 5. A process for producing a fine hollow powder comprising a titanium oxide shell with laminated titanium oxide particles stuck together, which comprises the steps of spraying an exfoliated titania sol and immediately exposing the sprayed exfoliated titania sol to high temperatures for drying. 6. A process according to claim 5, wherein the exfoliated titania sol has a viscosity of 5-10,000 cP. 7. A process according to claim 5, wherein the exfoliated titania sol comprises a dispersion of delaminated particles represented by the following composition formula: Ti2-x/3O4(4x/3)−, where x is 0.57-1.0. 8. A process according to claim 5, wherein the exfoliated titania sol comprises a dispersion of delaminated particles having a thickness of 0.5-1 nm, a width of 0.1-30 μm and a length of 0.1-30 μm. 9. A process according to claim 5, wherein the drying temperature is 100°-800° C. 10. A process according to claim 5, wherein the exfoliated titania sol is prepared by a step of producing an alkali metal titanate by mixing an alkali metal oxide or a compound decomposable to an alkali metal oxide by heating with titanium oxide or a compound capable of producing titanium oxide by heating, followed by heating; a step of producing a layered titanic acid compound by treating the alkali metal titanate with an aqueous acid solution; and a step of producing an exfoliated titania sol by dispersing the layered titanic acid compound in a liquid medium in the presence of a basic compound. 11. A process according to claim 10, wherein the step of producing the alkali metal titanate comprises mixing alkali metal oxides represented by M20 and M′20, where M and M′are mutually different kinds of alkali metals, or compounds decomposable to M20 and M′20 by heating with titanium dioxide or a compound capable of producing titanium dioxide by heating in a molar ratio of M/M′/Ti of 3/1/5-3/1/11, followed by heating at a temperature of 500°-1,100°C. 12. A process according to claim 10, wherein the alkali metal titanate is a mixed alkali metal titanate in a layer structure of orthorhombic crystal, represented by the following composition formula: Mx[M′x/3 Ti2-x/3] O4, where M and M′ are mutually different kinds of alkali metals and x is 0.50-1.0. 13. A process according to claim 10, wherein the layered titanic acid compound is a compound in an orthorhombic layer structure represented by the following composition formula: H4x/3 Ti2x/3 O4·nH2O, where x is 0.50-1.0 and n is 0-2. 14. A process for producing a thin flaky titanium oxide powder, which comprises a step of pulverizing fine hollow powder comprising a titanium oxide shell with laminated titanium oxide particles stuck together wherein the fine hollow powder has an outer diameter of 0.1 to 5,000 μm and the hollow powder is provided by spraying an exfoliated titania sol and immediately exposing the sprayed exfoliated titania sol to high temperatures for drying. 15. A process according to claim 14, which further comprises a step of heat treating at a temperature of 100°-800° C. before and/or after the step of pulverization. 16. A fine hollow powder comprising a titanium oxide shell with laminated titanium oxide particles stuck together to form fine hollow powder with the powder having an outer diameter of 0.1 to 5,000 μm and the shape of which is a balloon form, wherein the titanium oxide shell has a ratio of outer diameter (D) to thickness (T), D/T, of 50-5,000, wherein the hollow powder, is provided by spraying an exfoliated titania sol and immediately exposing the sprayed exfoliated titania sol to high temperatures for drying. 17. A fine hollow powder comprising a titanium oxide shell wherein laminated titanium oxide particles, having a thickness of 0.5-1 nm, a width of 0.1-30 μm and a length of 0.1-30 μm, are stuck together wherein the fine hollow powder has an outer diameter of 0.1 to 5,000 μm and the hollow powder is provided by spraying an exfoliated titania sol and immediately exposing the sprayed exfoliated titania sol to high temperatures for drying.
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