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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0211034 (2002-08-02) |
등록번호 | US-7510585 (2009-03-31) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 2 인용 특허 : 210 |
Amorphous materials, glass-ceramics and methods of making the same. Embodiments of the invention include abrasive particles. The abrasive particles can be incorporated into a variety of abrasive articles, including bonded abrasives, coated abrasives, nonwoven abrasives, and abrasive brushes.
What is claimed is: 1. Amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, T
What is claimed is: 1. Amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the amorphous material further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material. 2. The amorphous material according to claim 1 wherein the amorphous material does not have a Tg. 3. An article comprising the amorphous material according to claim 1. 4. The amorphous material according to claim 1 in the form of an IR window. 5. Glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 6. The glass according to claim 5 in the form of an IR window. 7. A method for making glass-ceramic, the method comprising: heat-treating amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the amorphous material further comprises a mutal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material. 8. A method for making glass-ceramic, the method comprising: heat-treating glass such that at least a portion of the glass is converted to a glass-ceramic, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dmensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 9. A method for making abrasive particles, the method comprising: heat-treating amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 pcreent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the amorphous material further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material; and crushing the glass-ceramic to provide abrasive particles comprising glass-ceramic. 10. A method for making abrasive particles, the method comprising: heat-treating amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3 is CaO, then the amorphous material further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material; and crushing the glass-ceramic to provide abrasive particles comprising the glass-ceramic. 11. A method for making abrasive particles, the method comprising: heat-treating particles comprising amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material of each particle,. and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material of each particle, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3, is CaO or ZrO2, then the amorphous material further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material. 12. A method for making abrasive particles, the method comprising: heat-treating particles comprising glass such that at least a portion of the glass is converted to a glass-ceramic, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass of each particle, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass of each particle, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 13. The method according to claim 12 wherein prior to the heat-treating the particles comprising glass, a plurality of particles having a specified nominal grade is provided, wherein at least a portion of the particles is a plurality of the particles comprising glass, and wherein the heat-treating is conducted such that a plurality of abrasive particles having a specified nominal grade is provided, wherein at least a portion of the abrasive particles is a plurality of the glass-ceramic abrasive particles. 14. The method according to claim 12 further comprising grading the glass-ceramic abrasive particles to provide a plurality of abrasive particles having a specified nominal grade, wherein at least a portion of the plurality of abrasive particles is a plurality of the glass-ceramic abrasive particles. 15. A method for making an article comprising glass comprising at least 35 percent by weight Al2O3, based on the total weight at the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, P2O5, TeO2, and V2O5, based on the total weight of the glass, the method comprising: providing glass particles comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, the glass having a Tg; heating the glass particles above the Tg such that the glass particles coalesce to form a shape; and cooling the shape to provide the article, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the glass is crystallized. 16. A method for making glass particles, the method comprising: atomizing a glass melt comprising at least 35 percent by weight Al2O3, based on the total weight of the glass melt, and a metal oxide other than Al2O3, wherein the glass melt contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass melt; and cooling the atomized glass melt to provide glass particles comprising at least 35 percent by weight Al2O3, based on the total weight of each glass particle, and a metal oxide other than Al2O3, wherein each glass particle contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of each glass particle, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 17. Glass-ceramic comprising at least 35 percent by weight Al2O3, based on the total weight of the glass-ceramic, and a metal oxide other than Al2O3, wherein the glass-ceramic contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass-ceramic, wherein the glass-ceramic has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass-ceramic further comprises crystals of a metal oxide other than CaO, and wherein the CaO is present up to 10 percent by weight, based on the total weight of the glass-ceramic. 18. The glass-ceramic according to claim 17 wherein the metal oxide other than Al2O3 is Y2O3. 19. The glass-ceramic according to claim 17 wherein the metal oxide other than Al2O3 is REO. 20. An article comprising the glass-ceramic according to claim 17. 21. The glass-ceramic according to claim 17 in the form of an IR window. 22. A method for making glass-ceramic, the method comprising: heat-treating glass such that at least a portion of the glass is converted to a glass-ceramic, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO3, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the glass further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 23. A method for making a glass-ceramic article, the method comprising: providing glass particles comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, the glass having a Tg; heating the glass particles above the Tg such that the glass particles coalesce to form a shape, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, the glass having a Tg, with the proviso that if the metal oxide other than Al2O3 is ZrO2, then the glass further comprises at least one of Y2O3 or REO; cooling the shape to provide a glass article; and heat-treating the glass article to provide a glass-ceramic article. 24. A method for making glass-ceramic particles, the method comprising: atomizing a glass melt comprising at least 35 percent by weight Al2O3, based on the total weight of the glass melt, and a metal oxide other than Al2O3, wherein the glass melt contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass melt; cooling the atomized glass melt to provide glass particles comprising at least 35 percent by weight Al2O3, based on the total weight of each glass particle, and a metal oxido other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of each glass particle, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO, then the glass further comprises a metal oxide other than Al2O3 or CaO at least a portion of which forms a distinct crystalline phase when the glass is crystallized; and heat-treating at least a portion of the glass particles such that at least a portion of the glass is converted to a glass-ceramic particles. 25. A plurality of abrasive particles having a specified nominal grade, wherein at least a portion of the abrasive particles is a plurality of abrasive particles comprising a glass-ceramic, the glass-ceramic comprising at least 35 percent by weight Al2O3, based on the total weight of the glass-ceramic, and a metal oxide other than Al2O3, wherein the glass-ceramic contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass-ceramic. 26. A method for making abrasive particles, the method comprising: providing a plurality of particles having a specified nominal grade, wherein at least a portion of the particles is a plurality of particles comprising an amorphous material, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material of each particle of the portion, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material of each particle of the portion; and heat-treating the particles comprising amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic and such that a plurality of abrasive particles having a specified nominal grade is provided, wherein at least a portion of the abrasive particles is a plurality of abrasive particics comprising the glass-ceramic. 27. A method for making abrasive particles, the method comprising: heat-treating particles comprising an amorphous material such that at least a portion of the glass is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material of each particle, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively Al2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material of each particle; and grading the abrasive particles comprising the glass-ceramic to provide a plurality of abrasive particles having a specified nominal grade, wherein at least a portion of the plurality of abrasive particles is a plurality of the abrasive particles comprising the glass-ceramic. 28. A method for making abrasive particles, the method comprising: heat-treating amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material; crushing the glass-ceramic to provide abrasive particles comprising the glass-ceramic; and grading the abrasive particles comprising the glass-ceramic to provide a plurality of abrasive particles having a specified nominal grade, wherein at least a portion of the plurality of abrasive particles is a plurality of the abrasive particles comprising the glass-ceramic. 29. A method for making abrasive particles, the method comprising: heat-treating ceramic comprising an amorphous material such that at least a portion of the amorphous material is converted to a glass-ceramic, the amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material; crushing the glass-ceramic to provide abrasive particles comprising the glass-ceramic; and grading the abrasive particles comprising the glass-ceramic to provide a plurality of abrasive particles having a specified nominal grade, wherein at least a portion of the plurality of abrasive particles is a plurality of the abrasive particles comprising the glass-ceramic. 30. A method for making ceramic, the method comprising: combining (a) glass particles, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, and (b) refractory particles relative to the glass particles, the glass having a Tg; heating the glass particles above the Tg such that the glass particles coalesce; and cooling the glass to provide the ceramic. 31. The method according to claim 30 wherein the refractory particles are selected from the group consisting of metal oxides, nitrides, carbides, and combinations thereof. 32. A method for making glass-ceramic, the method comprising: combining (a) glass particles, the glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, and (b) refractory particles relative to the glass particles, the glass having a Tg; heating the glass particles above the Tg such that the glass particles coalesce; cooling the glass to provide ceramic; and heat-treating the glass of the ceramic to provide the glass-ceramic. 33. The method according to claim 32 wherein the refractory particles are selected from the group consisting of metal oxides, nitrides, carbides and combinations thereof. 34. Amorphous material comprising at least 35 percent by weight Al2O3, based on the total weight of the amorphous material, and a metal oxide other than Al2O3, wherein the amorphous material contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the amorphous material, wherein the amorphous material lacks any long range crystal structure as determined by X-ray diffraction, wherein the amorphous material has x, y, and z dimensions each perpendicular to each other, wherein each of the x, y, and z dimensions is at least 5 mm, and wherein the amorphous material has a density of at least 85 percent of theoretical, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the amorphous material further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the amorphous material is crystallized, wherein the CaO is present up to 10 percent by weight, based on the total weight of the amorphous material, and wherein the amorphous material does not have a Tg. 35. A method for making glass-ceramic, the method comprising: heat-treating amorphous material according to claim 34 such that at least a portion of the amorphous material is converted to a glass-ceramic. 36. The amorphous material according to claim 34 in the form of an IR window. 37. Glass comprising at least 35 percent by weight Al2O3, based on the total weight of the glass, and a metal oxide other than Al2O3, wherein the glass contains not more than 10 percent by weight collectively As2O3, B2O3, GeO2, P2O5, SiO2, TeO2, and V2O5, based on the total weight of the glass, wherein the glass has x, y, and z dimensions each perpendicular to each other, and wherein each of the x, y, and z dimensions is at least 5 mm, with the proviso that if the metal oxide other than Al2O3 is CaO or ZrO2, then the glass further comprises a metal oxide other than Al2O3, CaO, and ZrO2 at least a portion of which forms a distinct crystalline phase when the glass is crystallized, and if the metal oxide other than Al2O3 is CaO, then the CaO is present up to 10 percent by weight, based on the total weight of the glass. 38. The glass according to claim 37 wherein the metal oxide other than Al2O3 is Y2O3. 39. The glass according to claim 37 wherein the metal oxide other than Al2O3 is REO. 40. The glass-ceramic according to claim 20 wherein the metal oxide other than Al2O3 is REO.
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