Evaluation of Mechanical Test Characteristics of Fillet Welding

The Korea Academia-Industrial cooperation Society Pub Date : 2020-01-01 DOI:10.5762/KAIS.2020.21.2.535

Byung-Jun Cho, Soung-Jun Lee, J. Rhim

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Abstract

FCAW is used mainly in the welding of carbon steel and alloy steel because it can be welded in all positions and can obtain excellent quality at sites with variable working conditions. Recently, many studies in Korea have estimated the fatigue strength, residual stress, and deformation, and to develop a fillet welding process. On the other hand, there have been few studies of the mechanical properties based on the strength, macro and magnetic particle test results for fillet welding. This study shows the following results through fillet welding, macro testing and strength testing using SM490A (solid-structure rolled steel) for thick plates using SS400 (rolled steel) for the upper plate and FCAW. The hardness test, macro test and magnetic particle test were then conducted. The hardness tests showed that all result values were smaller than the KS B 0893 standard values of 350Hv. The macro-test showed that each type of welded part was in a normal organic state and that there were no internal errors, bubbles, or impurities on the front of the welded part. Therefore, there were no concerns about lamination. The magnetic particle examination showed no problems.

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角焊力学试验特性评价

FCAW主要用于碳钢和合金钢的焊接，因为它可以在所有位置焊接，并且在工作条件多变的场所可以获得优异的质量。最近，韩国的许多研究已经估计了疲劳强度、残余应力和变形，并开发了角焊工艺。另一方面，基于强度、宏观和磁粉测试结果对角焊缝力学性能的研究较少。本研究采用SM490A(固相组织轧制钢)对厚板进行角焊、宏观试验和强度试验，采用SS400(轧制钢)对上板和FCAW进行试验。然后进行硬度试验、宏观试验和磁粉试验。硬度测试结果均小于KS B 0893标准值350Hv。宏观试验表明，各类型焊接件均处于正常的有机状态，焊接件正面无内部误差、气泡或杂质。因此，没有担心层压。磁粉检查无问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Korea Academia-Industrial cooperation Society

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