激光技术, 2019, 43 (1): 38, 网络出版: 2019-01-22   

真空平板玻璃激光封接气孔控制研究

Study on pores control of vacuum plate glazing by laser sealing
作者单位
扬州大学 机械工程学院, 扬州 225127
摘要
为了探究激光焊接真空平板玻璃封接层气孔的产生机理, 利用扫描电镜、自带能谱仪、X射线衍射仪和金相显微镜等手段, 进行了真空平板玻璃激光侧边封接试验, 研究了激光功率和焊接速率对封接层气孔的影响, 分析气孔产生的原因。结果表明,真空平板玻璃封接层出现了数量较多、大小不一、相互不连通的孤立气孔, 位于颗粒的交界处, 主要是由焊料颗粒间的残余空气引起的;在焊接速率为2mm/s和离焦量为-2mm的条件下, 过低或过高的激光功率都不利于减少封接层的气孔缺陷, 激光功率为80W(能量密度为80J/mm2)时, 封接层组织形貌好, 封接层封接质量佳;在激光功率为80W和离焦量为-2mm的条件下, 较低的焊接速率将有利于减少封接层的气孔缺陷, 焊接速率为1mm/s(能量密度为160J/mm2)时, 封接层组织形貌好, 封接层封接质量佳。此研究可为真空平板玻璃的激光封接制造提供理论依据。
Abstract
In order to research the pores formation mechanism of sealing layer in laser welding of vacuum plate glazing, a laser sealing test was carried out. Scanning electron microscope, energy dispersive spectroscopy, X-ray diffractometer and metallographic microscope were used in this study. The influences of laser power and welding speed on pores of sealing layer were studied and the causes of pores were analyzed. The results show that, there are a large number of isolated pores in vacuum glazing sealing layer, which are different in size and disconnected with each other, located at the junction of particles, and mainly caused by the residual air between the solder particles. At the welding speed of 2mm/s and the defocus amount of -2mm, lower or higher laser power is not conducive to reduce the pore defects of sealing layer. When the laser power is 80W (energy density is 80J/mm2), the sealing layer has good morphology and good sealing quality. The lower welding speed will help to reduce the pore defects of sealing layer at the laser power of 80W and the defocus amount of -2mm. When the welding speed is 1mm/s (energy density is 160J/mm2), the sealing layer has good morphology and good sealing quality. This study can provide a theoretical basis for the laser sealing manufacturing of vacuum plate glazing.

缪宏, 贺强, 张善文, 张燕军, 刘思幸. 真空平板玻璃激光封接气孔控制研究[J]. 激光技术, 2019, 43(1): 38. MIAO Hong, HE Qiang, ZHANG Shanwen, ZHANG Yanjun, LIU Sixing. Study on pores control of vacuum plate glazing by laser sealing[J]. Laser Technology, 2019, 43(1): 38.

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