qi xiao-bo, tang yong-jian, li bo, et al. Investigation on heat transfer between furnace atmosphere and hollow glass microspheres[J]. High Power Laser and Particle Beams, 2005, 17.
Citation:
qi xiao-bo, tang yong-jian, li bo, et al. Investigation on heat transfer between furnace atmosphere and hollow glass microspheres[J]. High Power Laser and Particle Beams, 2005, 17.
qi xiao-bo, tang yong-jian, li bo, et al. Investigation on heat transfer between furnace atmosphere and hollow glass microspheres[J]. High Power Laser and Particle Beams, 2005, 17.
Citation:
qi xiao-bo, tang yong-jian, li bo, et al. Investigation on heat transfer between furnace atmosphere and hollow glass microspheres[J]. High Power Laser and Particle Beams, 2005, 17.
To explore heat transfer process between the hollow glass microspheres and furnace atmosphere in fabricating hollow glass microspheres by the sol-gel technology, the effect of component percentage, temperature and total pressure of Ar/He gas mixture on the overall thermal resistance between microsphere and furnace atmosphere was studied. The influence of the diameter and the wall thickness of a microsphere on the overall thermal resistance was also investigated. The results show that, in the range of component percentage, temperature and pressure of Ar/He gas mixture commonly used in fabricating hollow glass microspheres by the sol-gel technology, an increase in the volume fraction of helium in the furnace atmosphere can significantly reduce the overall thermal resistance, but increasing t
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