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1.发明申请Apparatuses For Controlling The Temperature Of Glass Forming Materials In Forehearths 审中-公开用于控制前炉玻璃成型材料温度的装置公开(公告)号:US20120131964A1
公开(公告)日:2012-05-31
申请号:US13367156
申请日:2012-02-06
申请人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
发明人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
IPC分类号: C03B37/085
摘要: Forehearths that create a substantially homogeneous temperature to molten glass forming materials across the end position are provided. A gas cavity, a weir, a refractory block, or a heating element in the forehearth may be utilized to reduce a temperature gradient of molten glass forming materials across the end position. Reducing the temperature difference of the molten glass forming material across the end position permits for improved chemical and physical properties of the glass fibers and the end products formed from the glass fibers. In addition, a reduction in the temperature gradient across the end position produces a more homogenous glass fiber and glass product. Further, a reduction in the shear break rate occurs when the molten glass forming material has a temperature that is substantially the same across the end position, which results in a reduction in the breakage of glass fibers and an increase in manufacturing efficiency.
摘要翻译: 提供了在终端位置上形成熔融玻璃形成材料的基本上均匀的温度的前炉。 可以使用气室中的气体腔,堰,耐火块或加热元件来减少熔融玻璃形成材料在端部位置的温度梯度。 通过使熔融玻璃形成材料的端部位置的温度差降低,可以提高由玻璃纤维形成的玻璃纤维和最终产品的化学和物理性质。 此外,通过端部位置的温度梯度的降低产生更均匀的玻璃纤维和玻璃产品。 此外,当熔融玻璃形成材料的端部位置具有基本相同的温度时,会发生剪切断裂率的降低,这导致玻璃纤维的断裂减少和制造效率的提高。
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2.发明授权Apparatuses for controlling the temperature of glass forming materials in forehearths 失效用于控制前炉玻璃成型材料的温度的装置公开(公告)号:US08113018B2
公开(公告)日:2012-02-14
申请号:US11638801
申请日:2006-12-14
申请人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
发明人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
IPC分类号: C03B37/085 , C03B37/00 , C03B7/06
摘要: Forehearths that create a substantially homogeneous temperature to molten glass forming materials across the end position are provided. A gas cavity, a weir, a refractory block, or a heating element in the forehearth may be utilized to reduce a temperature gradient of molten glass forming materials across the end position. Reducing the temperature difference of the molten glass forming material across the end position permits for improved chemical and physical properties of the glass fibers and the end products formed from the glass fibers. In addition, a reduction in the temperature gradient across the end position produces a more homogenous glass fiber and glass product. Further, a reduction in the shear break rate occurs when the molten glass forming material has a temperature that is substantially the same across the end position, which results in a reduction in the breakage of glass fibers and an increase in manufacturing efficiency.
摘要翻译: 提供了在终端位置上形成熔融玻璃形成材料的基本上均匀的温度的前炉。 可以使用气室中的气体腔,堰,耐火块或加热元件来减少熔融玻璃形成材料在端部位置的温度梯度。 通过使熔融玻璃形成材料的端部位置的温度差降低,可以提高由玻璃纤维形成的玻璃纤维和最终产品的化学和物理性质。 此外,通过端部位置的温度梯度的降低产生更均匀的玻璃纤维和玻璃产品。 此外,当熔融玻璃形成材料的端部位置具有基本相同的温度时,会发生剪切断裂率的降低,这导致玻璃纤维的断裂减少和制造效率的提高。
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3.发明申请公开(公告)号:US20080141721A1
公开(公告)日:2008-06-19
申请号:US11638801
申请日:2006-12-14
申请人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
发明人: Harry Adams , Bruno A. Purnode , Byron Bemis , Patrick J. Prescott , William L. Streicher , David J. Baker
摘要: Forehearths that create a substantially homogeneous temperature to molten glass forming materials across the end position are provided. A gas cavity, a weir, a refractory block, or a heating element in the forehearth may be utilized to reduce a temperature gradient of molten glass forming materials across the end position. Reducing the temperature difference of the molten glass forming material across the end position permits for improved chemical and physical properties of the glass fibers and the end products formed from the glass fibers. In addition, a reduction in the temperature gradient across the end position produces a more homogenous glass fiber and glass product. Further, a reduction in the shear break rate occurs when the molten glass forming material has a temperature that is substantially the same across the end position, which results in a reduction in the breakage of glass fibers and an increase in manufacturing efficiency.
摘要翻译: 提供了在终端位置上形成熔融玻璃形成材料的基本上均匀的温度的前炉。 可以使用气室中的气体腔,堰,耐火块或加热元件来减少熔融玻璃形成材料在端部位置的温度梯度。 通过使熔融玻璃形成材料的端部位置的温度差降低,可以提高由玻璃纤维形成的玻璃纤维和最终产品的化学和物理性质。 此外,通过端部位置的温度梯度的降低产生更均匀的玻璃纤维和玻璃产品。 此外,当熔融玻璃形成材料的端部位置具有基本相同的温度时,会发生剪切断裂率的降低,这导致玻璃纤维的断裂减少和制造效率的提高。
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