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11.发明授权公开(公告)号:US08338319B2
公开(公告)日:2012-12-25
申请号:US12341985
申请日:2008-12-22
摘要: A composition for the manufacture of high strength glass fibers suitable for manufacture in a refractory lined glass melter is disclosed. The glass composition of the present invention includes 64-75 weight % SiO2, 16-24 weight % Al2O3, 8-11 weight % MgO and 0.25 to 3.0 weight % R2O where R2O is the sum of Li2O and Na2O. A composition of the present invention includes 64-75 weight % SiO2, 16-24 weight % Al2O3, 8-11 weight % MgO and 0.25 to 3.0 weight % Li2O. Another composition includes 68-69 weight percent SiO2, 20-22 weight percent Al2O3, 9-10 weight percent MgO and 1-3 weight percent Li2O. By using oxide based refractory lined furnaces the cost of production of glass fibers is substantially reduced in comparison with the cost of fibers using a platinum lined melting furnace. Fibers formed by the present invention are also disclosed. The fibers have a fiberizing temperature of less than 2650° F., a ΔT of at least 80° F. Further, the glass fibers have a strength in excess of 680 KPSI, in some instances a strength in excess of about 700 KPSI, and in others a strength in excess of about 730 KPSI. The glass fibers will desirably have a modulus greater than 12.0 MPSI, in some instances greater than about 12.18 MPSI, and in certain instances greater than about 12.7 MPSI.
摘要翻译: 公开了一种用于制造适用于在耐火衬里玻璃熔化器中制造的高强度玻璃纤维的组合物。 本发明的玻璃组合物包括64-75重量%的SiO 2,16-24重量%的Al 2 O 3,8-11重量%的MgO和0.25-3.0重量%的R 2 O,其中R 20是Li 2 O和Na 2 O的总和。 本发明的组合物包括64-75重量%的SiO 2,16-24重量%的Al 2 O 3,8-11重量%的MgO和0.25-3.0重量%的Li 2 O。 另一种组合物包括68-69重量%的SiO 2,20-22重量%的Al 2 O 3,9-10重量%的MgO和1-3重量%的Li 2 O。 通过使用基于氧化物的耐火衬里炉,与使用铂衬里熔化炉的纤维成本相比,玻璃纤维的生产成本大大降低。 还公开了由本发明形成的纤维。 纤维的成纤温度低于2650°F,至少80°F。此外,玻璃纤维的强度超过680KPSI,在某些情况下强度超过约700KPSI ,其他的强度超过约730 KPSI。 玻璃纤维理想地具有大于12.0MPSI的模量,在一些情况下大于约12.18MPSI,在某些情况下大于约12.7MPSI。
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12.发明申请公开(公告)号:US20100160139A1
公开(公告)日:2010-06-24
申请号:US12341985
申请日:2008-12-22
IPC分类号: C03C13/02
摘要: A composition for the manufacture of high strength glass fibers suitable for manufacture in a refractory lined glass melter is disclosed. The glass composition of the present invention includes 64-75 weight % SiO2, 16-24 weight % Al2O3, 8-11 weight % MgO and 0.25 to 3.0 weight % R2O where R2O is the sum of Li2O and Na2O. A composition of the present invention includes 64-75 weight % SiO2, 16-24 weight % Al2O3, 8-11 weight % MgO and 0.25 to 3.0 weight % Li2O. Another composition includes 68-69 weight percent SiO2, 20-22 weight percent Al2O3, 9-10 weight percent MgO and 1-3 weight percent Li2O. By using oxide based refractory lined furnaces the cost of production of glass fibers is substantially reduced in comparison with the cost of fibers using a platinum lined melting furnace. Fibers formed by the present invention are also disclosed. The fibers have a fiberizing temperature of less than 2650° F., a ΔT of at least 80° F. Further, the glass fibers have a strength in excess of 680 KPSI, in some instances a strength in excess of about 700 KPSI, and in others a strength in excess of about 730 KPSI. The glass fibers will desirably have a modulus greater than 12.0 MPSI, in some instances greater than about 12.18 MPSI, and in certain instances greater than about 12.7 MPSI.
摘要翻译: 公开了一种用于制造适用于在耐火衬里玻璃熔化器中制造的高强度玻璃纤维的组合物。 本发明的玻璃组合物包括64-75重量%的SiO 2,16-24重量%的Al 2 O 3,8-11重量%的MgO和0.25-3.0重量%的R 2 O,其中R 20是Li 2 O和Na 2 O的总和。 本发明的组合物包括64-75重量%的SiO 2,16-24重量%的Al 2 O 3,8-11重量%的MgO和0.25-3.0重量%的Li 2 O。 另一种组合物包括68-69重量%的SiO 2,20-22重量%的Al 2 O 3,9-10重量%的MgO和1-3重量%的Li 2 O。 通过使用基于氧化物的耐火衬里炉,与使用铂衬里熔化炉的纤维成本相比,玻璃纤维的生产成本大大降低。 还公开了由本发明形成的纤维。 纤维的成纤温度低于2650°F,至少80°F。此外,玻璃纤维的强度超过680KPSI,在某些情况下强度超过约700KPSI ,其他的强度超过约730 KPSI。 玻璃纤维理想地具有大于12.0MPSI的模量,在一些情况下大于约12.18MPSI,在某些情况下大于约12.7MPSI。
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