低碳钢和中碳钢堆焊时渣壳分离的评价方法

Nataliya Strelenko, Vladyslav Kovalenko, Roman Mastenko
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引用次数: 0

摘要

采用基于试样热变形过程且易于分离的渣壳分离方法在新型焊接材料的开发中具有重要意义。基于母材热变形过程理论计算的熔渣分离评价方法已经通过了实验研究阶段。基于TiO2-MnO-SiO2-MgO-CaO-FeO-Al2O3熔渣体系的实验焊剂下熔渣涂层与焊缝表面分离评价方法得到了实验验证。渣包高温分离的评价标准考虑了:试样几何参数的比值、堆焊过程的热输入量以及渣-金属界面存在尖晶石形成成分的因素。评价渣壳分离性的选取参数以点为单位,其中渣包层的保证分离性计算为渣在破坏过程中的任意分离或单片层对渣的任意分离。该方法的实用价值在于,可以定量评估在广泛的堆焊助熔剂范围内熔渣涂层高温分离的可能性。实验结果表明,所开发的评价熔渣涂层与焊缝表面高温分离的方法是有效的。
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Methodology for evaluation of slag crust separation during surfacing of low- and medium-carbon steels
The relevance of using slag crust separation methods, which are characterized by easy separation and are based on thermo-deformation processes in the sample, is shown in the development of new welding materials. The developed method of assessing slag separation based on the theoretical calculation of thermo-deformation processes in the base metal has passed the stages of experimental research The experimental approbation of the proposed methodology for assessing the separation of the slag coating from the surface of welded joints under experimental fluxes based on the TiO2-MnO-SiO2–MgO–CaO-FeO-Al2O3 slag system was carried out for different welding regimes. The evaluation criterion for the high-temperature separation of the slag coating takes into account: the ratio of the geometric parameters of the test sample, the amount of heat input during the surfacing process, and the factor of the presence of spinel-forming components at the slag-metal interface. The selected parameters for evaluating the separation of the slag crust in points, where the guaranteed separation of the slag coating is counted for the arbitrary separation of the slag during its destruction or the arbitrary separation of the slag by a monolithic layer. The practical value of the proposed method lies in the possibility of quantitative assessment of the probability of high-temperature separation of the slag coating for a wide range of fluxes for surfacing. The results of the conducted experiments show the efficiency of the developed methodology for evaluating the high-temperature separation of the slag coating from the surface of the weld metal.
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