焊条涂层含水率对水下湿式保护金属电弧焊中可扩散氢的影响

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Materials Science Pub Date : 2020-12-01 DOI:10.2478/adms-2020-0020
J. Klett, T. Hassel
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引用次数: 10

摘要

在保护金属电弧焊中,影响焊缝金属吸氢的主要因素是(i)母材的含氢量,(ii)焊接耗材输入的氢,以及(iii)电弧过程周围大气引入的氢。本研究以水下湿式保护金属电弧焊为例,研究并比较了这些因素的相对贡献。为了评估粘电极的水分(操作过程中毛细管引入的水分)对湿焊样品中可扩散氢的影响,在四种不同的水深下焊接湿电极和干电极。仅通过锐化的电极尖端吸收水分,确保接近使用条件。结果表明,湿棒电极涂层使焊缝金属中平均弥散氢含量(平均水深0.5 m)提高22.6%;然而,随着水深的增加,这种效应消失(在水深60 m时没有差异)。
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Influence of Stick Electrode Coating’s Moisture Content on the Diffusible Hydrogen in Underwater Wet Shielded Metal Arc Welding
Abstract In shielded metal arc welding, the major factors influencing hydrogen uptake into the weld metal are (i) the hydrogen content of the base metal, (ii) hydrogen input by the welding consumable, and (iii) the hydrogen introduced by the atmosphere surrounding the arc process. In this study, the relative contribution of these factors is investigated and compared to each other for the case of underwater wet shielded metal arc welding. To assess the influence of the stick electrode’s moisture (capillary introduced water during handling operations) on the diffusible hydrogen in wet welded samples, wet and dry electrodes were welded at four different water depths. The moisture was absorbed through the sharpened electrode tip only, to ensure close to service conditions. The results show that the moist stick electrode coatings lead to 22.6% higher average diffusible hydrogen content in the weld metal (0.5 m water depth an average). However, the effect disappears with increasing water depths (no difference in 60 m water depth).
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Advances in Materials Science
Advances in Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
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