High temperature resistant vitreous inorganic fiber
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C03C-013/06
C03C-013/00
C03C-013/02
C03C-003/095
C03C-003/076
출원번호
US-0876968
(2004-06-25)
등록번호
US-7468336
(2008-12-23)
발명자
/ 주소
Zoitos,Bruce K.
Andrejcak,Michael J.
Boymel,Paul M.
출원인 / 주소
Unifrax LLC
대리인 / 주소
Curatolo Sidoti Co., LPA
인용정보
피인용 횟수 :
8인용 특허 :
46
초록▼
A high temperature resistant vitreous inorganic fiber having a use temperature of up to at least 1000�� C., or greater, having after service mechanical integrity, is non-durable (soluble) in physiological fluids, and is produced from a melt containing silica, magnesia, calcia, a lanthanide series el
A high temperature resistant vitreous inorganic fiber having a use temperature of up to at least 1000�� C., or greater, having after service mechanical integrity, is non-durable (soluble) in physiological fluids, and is produced from a melt containing silica, magnesia, calcia, a lanthanide series element-containing compound, and optionally zirconia.
대표청구항▼
We claim: 1. A low shrinkage, high temperature resistant vitreous inorganic fiber having a use temperature over at least 1000�� C., which maintains mechanical integrity up to the use temperature and which is non-durable in physiological fluids, comprising the fiberization product of greater than 71
We claim: 1. A low shrinkage, high temperature resistant vitreous inorganic fiber having a use temperature over at least 1000�� C., which maintains mechanical integrity up to the use temperature and which is non-durable in physiological fluids, comprising the fiberization product of greater than 71.25 weight percent silica, magnesia, calcia, a lanthanide series element-containing compound and optionally less than 10 weight percent zirconia. 2. The fiber of claim 1, wherein said lanthanide series element is selected from the group consisting of La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu. 3. The fiber of claim 2, wherein said lanthanide series element is La. 4. The fiber of claim 1, wherein said lanthanide series element-containing compound is selected from the group consisting of lanthanide series element-containing bromides, lanthanide series element-containing chlorides, lanthanide series element-containing fluorides, lanthanide series element-containing phosphates, lanthanide series element-containing nitrates, lanthanide series element-containing nitrites, lanthanide series element-containing oxides, and lanthanide series element-containing sulfates. 5. The fiber of claim 4, wherein said lanthanide series element-containing compound is La2O3. 6. The fiber of claim 1, containing less than about 2 weight percent alumina. 7. The fiber of claim 1, containing less than about 1 weight percent iron oxides, calculated as Fe2O3. 8. The fiber of claim 1, containing substantially no alkali metal oxide. 9. The fiber of claim 8, wherein said lanthanide series element is selected from the group consisting of La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu. 10. The fiber of claim 9, wherein said lanthanide series element is La. 11. The fiber of claim 8, wherein said lanthanide series element-containing compound is selected from the group consisting of lanthanide series element-containing bromides, lanthanide series element-containing chlorides, lanthanide series element-containing fluorides, lanthanide series element-containing phosphates, lanthanide series element-containing nitrates, lanthanide series element-containing nitrites, lanthanide series element-containing oxides, and lanthanide series element-containing sulfates. 12. The fiber of claim 11, wherein said lanthanide series element-containing compound is La2O3. 13. The fiber of claim 8, containing less than about 2 weight percent alumina. 14. The fiber of claim 8, containing less than about 1 weight percent iron oxides, calculated as Fe2O3. 15. The fiber of claim 8, containing substantially no alkali metal oxide. 16. The fiber of claim 1, comprising the fiberization product of greater than 71.25 to about 86 weight percent silica, greater than 0 to about 20 weight percent magnesia, about 5 to about 28.75 weight percent calcia, and greater than 0 to about 6 weight percent of a compound containing lanthanum or a lanthanide series element. 17. The fiber of claim 1, comprising the fiberization product of about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lanthanide series element. 18. The fiber of claim 1, comprising the fiberization product of about 71.5 to about 76.1 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lanthanide series element. 19. The fiber of claim 1, comprising the fiberization product of about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 20. The fiber of claim 1, comprising the fiberization product of about 71.5 to about 76.1 weight percent silica, 0 to about 16.5 weight percent magnesia, and about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 21. The fiber of claim 1, comprising the fiberization product of about 72 to about 75 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 22. A method for preparing a low shrinkage, high temperature resistant vitreous fiber having a use temperature over at least 1000�� C., which maintains mechanical integrity up to the use temperature and which is non-durable in physiological fluids, comprising forming a melt with ingredients comprising greater than 71.25 weight percent silica, magnesia, calcia, a lanthanide series element-containing compound and optionally less than 10 weight percent zirconia; and producing fibers from the melt. 23. The method of claim 22, wherein the melt comprises greater than 71.25 to about 86 weight percent silica, greater than 0 to about 20 weight percent magnesia, about 5 to about 28.75 weight percent calcia, and about greater than 0 to about 6 weight percent of a compound containing lanthanum or a lanthanide series element. 24. The method of claim 22, wherein the melt comprises about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lantlianide series element. 25. The method of claim 22, wherein the melt comprises about 71.5 to about 76.1 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lanthanide series element. 26. The method of claim 22, wherein the melt comprises about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 27. The method of claim 22, wherein the melt comprises about 71.5 to about 76.1 weight percent silica, 0 to about 16.5 weight percent magnesia, and about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 28. The method of claim 22, wherein the melt comprises about 72 to about 75 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 29. The method of claim 22, wherein said lanthanide series element is selected from the group consisting of La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu, and Y. 30. The method of claim 22, wherein said lanthanide series element is La. 31. The method of claim 22, wherein said lanthanide series element-containing compound is selected from the group consisting of lanthanide series element-containing bromides, lanthanide series element-containing chlorides, lanthanide series element-containing fluorides, lanthanide series element-containing phosphates, lanthanide series element-containing nitrates, lanthanide series element-containing nitrites, lanthanide series element-containing oxides, and lanthanide series element-containing sulfates. 32. The method of claim 31, wherein said lanthanide series element-containing compound is La2O3. 33. The method of claim 22, containing less than about 2 weight percent alumina. 34. The method of claim 22, containing less than about 1 weight percent iron oxides, calculated as Fe2O3. 35. The method of claim 22, containing substantially no alkali metal oxide. 36. The method of claim 22, further comprising from 0 to about 11 weight percent zirconia. 37. A method of insulating an article, including disposing on, in, near or around the article, a thermal insulation material having a service temperature up to at least 1000�� C., or greater, which maintains mechanical integrity up to the use temperature and which is non-durable in physiological fluids, said insulation material comprising the fiberization product of a melt of ingredients comprising greater than 71.25 weight percent silica, magnesia, calcia, a lanthanide series element-containing compound and, optionally, less than 10 weight percent zirconia. 38. A low shrinkage, high temperature resistant vitreous inorganic fiber having a use temperature over at least 1000�� C., which maintains mechanical integrity up to the use temperature and which is non-durable in physiological fluids, comprising the fiberization product of greater than 71.25 to about 86 weight percent silica, greater than 0 to about 20 weight percent magnesia, about 5 to about 28.75 weight percent calcia, and greater than 0 to about 6 weight percent of a compound containing lanthanum or a lanthanide series element. 39. The fiber of claim 38, comprising the fiberization product of about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lanthanide series element. 40. The fiber of claim 38, comprising the tiberization product of about 71.5 to about 76.1 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to 6 weight percent of a compound containing lanthanum or a lanthanide series element. 41. The fiber of claim 38, comprising the fiberization product of about 71.5 to about 79 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9 to about 27 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 42. The fiber of claim 38, comprising the fiberization product of about 71.5 to about 76.1 weight percent silica, 0 to about 16.5 weight percent magnesia, and about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 43. The fiber of claim 38, comprising the fiberization product of about 72 to about 75 weight percent silica, greater than 0 to about 16.5 weight percent magnesia, about 9.25 to about 28 weight percent calcia, greater than 0 to about 6 of a compound containing lanthanum or a lanthanide series element and, optionally, 0 to about 5 weight percent zirconia. 44. The fiber of claim 38, wherein said lanthanide series element is selected from the group consisting of La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu. 45. The fiber of claim 44, wherein said lanthanide series element is La. 46. The fiber of claim 38, wherein said lanthanide series element-containing compound is selected from the group consisting of lanthanide series element-containing bromides, lanthanide series element-containing chlorides, lanthanide series element-containing fluorides, lanthanide series element-containing phosphates, lanthanide series element-containing nitrates, lanthanide series element-containing nitrites, lanthanide series element-containing oxides, and lanthanide series element-containing sulfates. 47. The fiber of claim 46, wherein said lanthanide series element-containing compound is La2O3. 48. The fiber of claim 38, containing less than about 2 weight percent alumina.
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