The present invention provides high brightness kaolins exhibiting a Brightness (GE) of at least about 90.0. The hydrous kaolin pigments of the present invention may also have, inter alia, a steepness index (d30/d70횞100) of at least about 39 and/or a titania concentration less than or equal to about
The present invention provides high brightness kaolins exhibiting a Brightness (GE) of at least about 90.0. The hydrous kaolin pigments of the present invention may also have, inter alia, a steepness index (d30/d70횞100) of at least about 39 and/or a titania concentration less than or equal to about 0.40% by weight of the pigment on a dry basis. (062) The hydrous kaolin pigment is produced by a process comprising: a) forming an aqueous suspension of a hydrous kaolin clay; b) forming a primary product by subjecting the suspension to classification or a combination of classification and griding; c), separating the kaolin from impurities by selective flocculation; and d) defining the separated kaolin. (063) The hydrous kaolins of the present invention allow coated papers to be produced at high brightness while maintaining acidic conditions on a paper machine. The invention pigmets exhibit brightness levels unexpectedly higher, e.g., about 2 to about 2.5 or more (GE) units brighter, than exhibited by previous high brightness hydrous kaolin pigments, without sacrificing other important paper properties. Paper coated with the inventive pigmants have high brightness, high whiteness, and high fluorescence levels. The present invention encompasses these pigments, compositions comprising them, and any application in which they are used.
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What is claimed is: 1. A hydrous kaolin pigment having a GE Brightness of at least about 90.0 and a steepness (d30/d70횞100) of at least about 39. 2. A hydrous kaolin pigment of claim 1, wherein said GE Brightness is at least about 91.0. 3. A hydrous kaolin pigment of claim 2, wherein said GE Br
What is claimed is: 1. A hydrous kaolin pigment having a GE Brightness of at least about 90.0 and a steepness (d30/d70횞100) of at least about 39. 2. A hydrous kaolin pigment of claim 1, wherein said GE Brightness is at least about 91.0. 3. A hydrous kaolin pigment of claim 2, wherein said GE Brightness is at least about 92.0. 4. A hydrous kaolin pigment of claim 3, wherein said GE Brightness is at least about 93.5. 5. A hydrous kaolin pigment of claim 4, wherein said GE Brightness is at least about 94.0. 6. A hydrous kaolin pigment of claim 1, wherein said steepness ranges from about 39 to about 45. 7. A hydrous kaolin pigment of claim 6, wherein said steepness ranges from about 41 to about 45. 8. A hydrous kaolin pigment of claim 1, having a particle size distribution such that about 80% to about 94% by weight are less than 2 μm. 9. A hydrous kaolin pigment of claim 8, wherein said particle size distribution is such that about 85% to about 92% by weight are less than 2 μm. 10. A hydrous kaolin pigment of claim 9, wherein said particle size distribution is such that about 85% to about 90% by weight are less than 2 μm. 11. The hydrous kaolin pigment of claim 1, having a GE Brightness of at least about 92.0, and a titania concentration of less than or equal to about 0.35%. 12. A hydrous kaolin pigment of claim 11, wherein said titania concentration is less than or equal to about 0.30%. 13. A hydrous kaolin pigment of claim 12, wherein said titania concentration is less than or equal to about 0.20%. 14. A hydrous kaolin pigment of claim 11, wherein said GE Brightness is at least about 93.0, and said titania concentration is less than or equal to about 0.15%. 15. The hydrous kaolin pigment of claim 1, having a GE Brightness of at least about 91.5, having a titania concentration less than or equal to about 0.40% by weight of the pigment on a dry basis, and having a particle size distribution such that about 80% to 94% by weight are less than 2 μm. 16. A hydrous kaolin pigment of claim 15, having a particle size distribution such that about 2% to about 15% by weight are less than 0.25 μm. 17. A hydrous kaolin pigment of claim 15, wherein said particle size distribution is such that about 85% to about 92% by weight are less than 2 μm. 18. A hydrous kaolin pigment of claim 17, wherein said particle size distribution is such that about 2% to about 10% by weight are less than 0.25 μm. 19. A hydrous kaolin pigment of claim 17, wherein said particle size distribution is such that about 85% to about 90% by weight are less than 2 μm. 20. A hydrous kaolin pigment of claim 17, wherein said particle size distribution is such that about 2% to about 8% is less than 0.25 μm. 21. A hydrous kaolin pigment of claim 15, having a GE Brightness of at least about 92.0. 22. A hydrous kaolin pigment of claim 21, having a GE Brightness of at least about 93.0. 23. A paper coating or filler composition comprising a hydrous kaolin pigment of claim 1 and a coating base. 24. A paper coating or filler composition comprising a hydrous kaolin pigment of claim 7 and a coating base. 25. A paper coating or filler composition comprising a hydrous kaolin pigment of claim 11 and a coating base. 26. A paper coating or filler composition comprising a hydrous kaolin pigment of claim 21 and a coating base. 27. A hydrous kaolin pigment produced by a process comprising: (a) forming an aqueous suspension of a hydrous kaolin clay; (b) forming a primary product by subjecting the suspension to classification or a combination of classification and grinding; (c) separating the kaolin from impurities by selective flocculation; and (d) defining the separated kaolin, wherein the product of the process is a hydrous kaolin pigment having a GE Brightness of at least about 90.0 and a steepness (d30/d70횞100) of at least about 39. 28. The hydrous kaolin pigment of claim 27, having a GE Brightness of at least about 91.5 and a titania concentration of less than or equal to about 0.40% by weight of the pigment on a dry basis. 29. The hydrous kaolin pigment of claim 27, having a GE Brightness of at least about 93.5. 30. The hydrous kaolin pigment of claim 27, wherein said separating step includes the steps of flocculating the kaolin away from dispersed impurities and redispersing the flocculated kaolin. 31. The product of the process hydrous kaolin pigment of claim 30, wherein said redispersion involves reaction with an oxidant, mechanical shear, or both. 32. The hydrous kaolin pigment of claim 27, wherein said primary product is subjected to at least one additional beneficiation procedure prior to selective flocculation. 33. The hydrous kaolin pigment of claim 32, wherein said at least one additional beneficiation procedure is degritting, magnetic separation, flotation, classification, grinding, reductive bleaching, or a combination thereof. 34. The hydrous kaolin pigment of claim 31, wherein said oxidant is selected from hydrogen peroxide or ozone. 35. The hydrous kaolin pigment of claim 34, wherein said oxidant is ozone. 36. A cellulose based substrate coated or filled with a composition comprising a pigment according to any one of claims 1, 11, or 15. 37. A coated or filled cellulose based substrate according to claim 36, wherein said substrate is paper. 38. A coated or filled cellulose based substrate according to claim 37, wherein said paper is light weight coating basepaper.
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이 특허에 인용된 특허 (10)
Brown Steven A. (New Brunswick NJ) Sennett Paul (Colonia NJ), Cationically processed calcined kaolin clay.
Yuan Jun (Milledgeville GA) Everett Ben E. (Tennile GA) Andrews Windell R. (Sandersville GA), Method for beneficiating discolored kaolin to produce high brightness coating clay.
Garforth William L. ; Pruett Robert J. ; Archer Dona L. ; Yuan Jun ; Garska Michael J. ; Brown H. Vince, Method for separating mixture of finely divided minerals and product thereof.
Forbus Ellen S. (Gray GA) Suitch Paul R. (Milledgeville GA) Dombrowski Thomas (Macon GA), Ultrahigh brightness calcined clay pigment, manufacture & use thereof.
Bushhouse, Steven G.; Clark, Terry L.; Fugitt, Gary P.; Jones, James P. E.; Lyons, Anthony V.; Wygant, Roger W., Basecoat and associated paperboard structure including a pigment blend of hyper-platy clay and calcined clay.
Ma, Deqiang; Newsome, Charles Allen; Smith, Aubrey Clay; Taylor, John; Carter, Richard Douglas, Processes for producing high-brightness kaolin in high yields, and kaolin materials produced therefrom.
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