Inorganic fibers including calcia, alumina, potassia and optionally sodia as the major fiber components are provided. Also provided are methods of preparing the inorganic fibers and of thermally insulating articles using thermal insulation comprising the inorganic fibers. The inorganic fibers are so
Inorganic fibers including calcia, alumina, potassia and optionally sodia as the major fiber components are provided. Also provided are methods of preparing the inorganic fibers and of thermally insulating articles using thermal insulation comprising the inorganic fibers. The inorganic fibers are soluble in physiological saline solutions, do not form crystalline silica, and are resistant to temperatures of 1260° C. and greater.
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1. An inorganic fiber comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) potassia, and/or sodia, wherein said fiber contains 15 weight percent or less silica.
1. An inorganic fiber comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) potassia, and/or sodia, wherein said fiber contains 15 weight percent or less silica. 2. The inorganic fiber of claim 1, comprising the fiberization product of (i) from about 20 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 80 weight percent alumina, and (iii) potassia and/or sodia. 3. The inorganic fiber of claim 2, comprising the fiberization product of (i) from about 30 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 70 weight percent alumina, and (iii) potassia and/or sodia. 4. The inorganic fiber of claim 1, comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater than 0 to 20 weight percent of potassia and/or sodia. 5. The inorganic fiber of claim 4, comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater than 0 to 20 weight percent of potassia. 6. The inorganic fiber of claim 5, containing about 10 weight percent or less silica. 7. The inorganic fiber of claim 6, containing about 5 weight percent or less silica. 8. The inorganic fiber of claim 7, containing about 2 weight percent or less silica. 9. An inorganic fiber containing thermal insulation article comprising at least one of bulk fiber, blankets, needled blankets, papers, felts, cast shapes, vacuum cast forms, or compositions, wherein said inorganic fiber containing article comprises the inorganic fiber of claim 6. 10. The inorganic fiber of claim 1, containing about 1 weight percent or less iron oxide, calculated as Fe2O3. 11. The inorganic fiber of claim 1, having a continuous use temperature of at least 1100° C. 12. The inorganic fiber of claim 1, having a continuous use temperature of at least 1260° C. 13. The inorganic fiber of claim 1, having a continuous use temperature of at least 1330° C. 14. A method for producing an inorganic fiber comprising: forming a melt with ingredients comprising (i) from about 10 to less than 40 weight percent calcia, (ii) greater than 60 to about 90 weight percent alumina, and (iii) potassia and/or sodia, and 15 weight percent or less silica; andproducing fibers from the melt. 15. The method of claim 14, wherein the melt of ingredients comprises (i) from about 20 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 80 weight percent alumina, and (iii) potassia and/or sodia. 16. The method of claim 15, wherein the melt of ingredients comprises (i) from about 30 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 70 weight percent alumina, and (iii) potassia and/or sodia. 17. The method of claim 14, wherein the melt of ingredients comprises (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater than 0 to 20 weight percent of potassia and/or sodia. 18. The method of claim 17, wherein the melt of ingredients comprises (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater than 0 to 20 weight percent of potassia and/or sodia, and about 10 weight percent or less silica. 19. The method of claim 18, wherein the melt comprises potassia. 20. The method of claim 14, wherein said producing the fibers from the melt comprises one of (i) spinning the fibers from the melt or (ii) blowing the fibers from the melt. 21. A method of insulating an article comprising disposing on, in, near or around the article, a thermal insulation material comprising inorganic fibers comprising a fiberization product of (i) from about 10 to less than 40 weight percent calcia, (ii) greater than 60 to about 90 weight percent alumina, and (iii) potassia and/or sodia and 15 weight percent or less silica. 22. The inorganic fiber of claim 21, comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater that 0 to 20 weight percent of potassia and/or sodia. 23. The inorganic fiber of claim 22, comprising the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, and (iii) greater than 0 to 20 weight percent of potassia and/or sodia, and about 10 weight percent or less silica. 24. The method of claim 23, wherein the fiberization product comprises boria. 25. A non-biopersistant inorganic fiber having a continuous use temperature of at least 1260° C. consisting essentially of the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) greater than 60 weight percent to about 90 weight percent alumina, (iii) potassia, and/or sodia, and (iv) 15 weight percent or less silica. 26. The inorganic fiber of claim 25, consisting essentially of the fiberization product of (i) from about 20 weight percent to less than 40 weight percent calcia, (ii) from about 50 weight percent to about 80 weight percent alumina, (iii) potassia and/or sodia, and (iv) 15 weight percent or less silica. 27. The inorganic fiber of claim 26, consisting essentially of the fiberization product of (i) from about 30 weight percent to less than 40 weight percent calcia, (ii) from about 50 weight percent to about 70 weight percent alumina, (iii) potassia and/or sodia, and (iv) 15 weight percent or less silica. 28. The inorganic fiber of claim 27, consisting essentially of the fiberization product of (i) about 40 weight percent calcia, (ii) from about 50 weight percent to about 60 weight percent alumina, (iii) potassia and/or sodia, and (iv) 15 weight percent or less silica. 29. The inorganic fiber of claim 25, consisting essentially of the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) from about 60 weight percent to about 90 weight percent alumina, (iii) greater than 0 to 20 weight percent of potassia and/or sodia, and (iv) 15 weight percent or less silica. 30. The inorganic fiber of claim 29, consisting essentially of the fiberization product of (i) from about 10 weight percent to less than 40 weight percent calcia, (ii) from about 60 weight percent to about 90 weight percent alumina, (iii) greater than 0 to 20 weight percent of potassia, and (iv) 15 weight percent or less silica. 31. The inorganic fiber of claim 30, containing about 10 weight percent or less silica. 32. The inorganic fiber of claim 31, containing about 5 weight percent or less silica. 33. The inorganic fiber of claim 32, containing about 2 weight percent or less silica. 34. The inorganic fiber of claim 25, wherein said fiber has a phosphorous pentoxide coating. 35. The inorganic fiber of claim 25, wherein said fiber exhibits a linear shrinkage of 20 percent or less after exposure to 1260° C. for 24 hours. 36. The inorganic fiber of claim 25, wherein said fiber exhibits a compressive recovery of at least 10 percent after exposure to 1260° C. for 24 hours.
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