文章摘要
詹伟涛,贺建雄,王艺臻,姜宏.羟基含量对全氧燃烧浮法玻璃结构弛豫的影响[J].材料导报,2018,32(12):2062-2065
羟基含量对全氧燃烧浮法玻璃结构弛豫的影响
Influence of Hydroxyl Content on Structural Relaxation in Oxy-fuel Combustion Float Glass
  
DOI:10.11896/j.issn.1005-023X.2018.12.023
中文关键词: 全氧燃烧浮法玻璃 羟基含量 激活能 组态熵
英文关键词: oxy-fuel combustion float glass, hydroxyl content, apparent activation energy, configurational entropy
基金项目:国家自然科学基金(51562008)
作者单位E-mail
詹伟涛 海南大学海南省特种玻璃重点实验室, 海口570228 wtzhan0821@163.com,jhong63908889@sina.com 
贺建雄 海南中航特玻科技有限公司, 澄迈571924
特种玻璃国家重点实验室, 澄迈571924 		 
王艺臻 海南师范大学物理与电子工程学院, 海口 571100  
姜宏 海南大学海南省特种玻璃重点实验室, 海口570228
海南中航特玻科技有限公司, 澄迈571924
特种玻璃国家重点实验室, 澄迈571924 		 
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中文摘要:
      采用红外光谱法和动态热机械分析(DMA)法研究了羟基含量对全氧燃烧浮法玻璃结构弛豫的影响。在540 ℃以上发现了类似于金属玻璃的α弛豫现象。通过Arrhenius方程拟合得出,气氛比(H2O与CO2气体体积比)为2∶1的全氧燃烧浮法玻璃、气氛比为1∶1的全氧燃烧浮法玻璃和空气助燃浮法玻璃的激活能分别为4.74 eV、5.82 eV和7.50 eV。由组态熵模型拟合的全氧燃烧浮法玻璃的组态熵值高于空气助燃浮法玻璃,且气氛比为2∶1的全氧燃烧浮法玻璃的组态熵值高于气氛比为1∶1的全氧燃烧浮法玻璃,说明全氧燃烧浮法玻璃的内部结构相比空气助燃浮法玻璃更加无序,而增加全氧燃烧熔窑内的水含量使全氧燃烧浮法玻璃的内部结构更无序,这也印证了羟基含量会对全氧燃烧浮法玻璃的结构弛豫造成一定的影响。
英文摘要:
      The present work investigated the influence of hydroxyl content on structural relaxation in oxy-fuel combustion float glass by means of infrared spectroscopy and dynamic mechanical analysis (DMA). An α-relaxation similar to metallic glass at above 540 ℃ was observed in the oxy-fuel combustion float glass. The apparent activation energy (obtained by fitting Arrhenius equation) values for oxy-fuel combustion float glass with 2∶1 atmosphere ratio (H2O/CO2 gas volume ratio), oxy-fuel combustion float glass with 1∶1 atmosphere ratio and air-fuel combustion float glass are 4.74 eV,5.82 eV and 7.50 eV, respectively. Meanwhile, the configurational entropy (obtained by fitting the configurational entropy loss law) values of oxy-fuel combustion float glass are higher than that of air-fuel combustion float glass, in which atmosphere ratio of 2∶1 corresponds to a greater configurational entropy compared to atmosphere ratio of 1∶1. This connoted the more disordered internal structure of oxy-fuel combustion float glass compared to air-fuel combustion float glass, as well as the disordering effect of the water vapor in the furnace onto the internal structure of oxy-fuel combustion float glass, and thereby confirming that the hydroxyl content exerts a certain influence on structural relaxation of the oxy-fuel combustion float glass.
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