溶接学会論文集
Print ISSN : 0288-4771
炭酸ガスアーク溶接時に発生するスパッタの飛散挙動および温度に関する研究
田中 好一南斉 清己井田 晋西脇 信彦堀 三計
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2002 年 20 巻 3 号 p. 363-368

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The spatter is cooled during scattering by the air. So, many spatters change from the melt state to the solidification state. Spatter does not adhere to the base metal and peripheral equipment in the solidification state. But, the possibility of adhering to them rises, when the spatter melts. In other words, the adhesion of the spatter is influenced by its cooling condition, that is, the scattering route and velocity of the spatter. Therefore, in order to clarify its adhesion behavior, it is very important to estimate its scattering behavior. Then, is this study, the scattering behavior of the spatter is CO2 gas shielded arc welding is measured and the scattering behavior and terperature of the spatter are simulated. As the results of examining 300 spatters, it is indicated that the initial velocity of the spatter which arise from welding point is about 10 m/s or less and the initial angle of elevation is 70 degree or less. In addition, it is indicated that the Reynolds number of scattering spatter is 7 from 2 and the drag coefficient is 30 from 10. Moreover, when scattering locus of the spatter are simulated by substituting the relationship between drag coefficient and Reynolds number into the momentum equation of the spatter, the results agree well with the experimental results.

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© 2002 社団法人 溶接学会
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