揭示埋弧焊 EH36 船用钢中 CaO-SiO2-MnO 焊剂的液滴区元素传递行为

Guanyi Wang, Yanyun Zhang, Yanqing Zhao, Hangyu Bai, Imants Kaldre, Cong Wang
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摘要

在埋弧焊(SAW)过程中,由于焊剂和电弧等离子体覆盖了液滴区,液滴区的温度极高且寿命极短,因此量化液滴区内的元素转移程度仍具有挑战性。本研究采用不同氧化锰含量和焊接电流强度的熔融 CaO-SiO2-MnO 助焊剂,研究了 SAW 焊接过程中熔滴区内的元素转移行为。研究人员使用了一种专为在声表面波焊接中捕获熔滴而设计的设备。结果表明,随着焊接电流从 200 安培增加到 400 安培,焊剂中的硅、锰和氧向液滴的平均转移水平分别增加了 1.81 倍、2.52 倍和 1.42 倍。随着氧化锰含量从 10 wt pct 增加到 60 wt pct,液滴通量中的硅、锰和氧的平均转移水平分别增加了 24.97 倍、3.01 倍和 2.22 倍。我们目前的研究结果有助于阐明电弧等离子体对液滴区内元素转移的影响,从而为全面理解声表面波过程中各个反应区的贡献建立一个理论框架。
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Unveiling Droplet Zone Element Transfer Behaviors of CaO–SiO2–MnO Fluxes in the EH36 Shipbuilding Steel Subject to Submerged Arc Welding

Quantifying the degree of element transfer within the droplet zone during submerged arc welding (SAW) remains challenging due to the coverage of the droplet zone by fluxes and the presence of arc plasma, which are characterized by exceedingly high temperatures and short lifetime. This present study has investigated element transfer behaviors within the droplet zone during SAW by employing fused CaO–SiO2–MnO fluxes with varying MnO contents and welding current intensities. An apparatus designed for capturing droplets in SAW was employed. The results indicate that, as the welding current increases from 200 to 400 A, the average transfer levels of Si, Mn, and O in the fluxes to the droplet increase by 1.81, 2.52, and 1.42 times, respectively. As the MnO content increases from 10 to 60 wt pct, the average transfer levels of Si, Mn, and O in the fluxes to the droplet increase by 24.97, 3.01, and 2.22 times, respectively. Our current findings may facilitate elucidating the influence of arc plasma on element transfer within the droplet zone, thereby establishing a theoretical framework for comprehensively understanding the contribution of individual reaction zones during SAW.

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