Vibratory Stress Relief and Vibratory Weld Conditioning of Flux cored arc welded CA6NM steel

Luiz Fernando Cursino Briet de Almeida, J. C. Lourenço, M. Faria, D. Vieira, A. Robin, C. A. Nunes
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引用次数: 1

Abstract

ASTM A743 CA6NM steel is used in the manufacturing of hydraulic turbines components. Multipass welding is commonly used for their fabrication or repairing. In this work, two different vibratory welding procedures were studied: vibration applied during welding (VWC) and vibration applied after welding (VSR). Results have shown that in both conditions, CA6NM steel presented a martensitic microstructure, in which the VSR welded joint presented column-shaped packets and fine martensite delineating the individual beads, while VWC joint presented grain refinement. Heat affected zones (HAZ) presented δ-phase in small amounts for both conditions in the regions which reached higher temperatures. VSR and VWC conditions presented similar behavior in terms of hardness, HAZ hardness values being close to those of the weld metal, except for the root regions, where higher values were obtained. Charpy-V results showed that HAZs presented higher impact values than those of the weld metal. The low impact values of the weld metal were attributed to presence of inclusions from the welding electrode.
CA6NM钢药芯弧焊振动应力消除与振动焊缝调理
ASTM A743 CA6NM钢用于制造水轮机部件。多道焊接通常用于它们的制造或修复。本文研究了两种不同的振动焊接工艺:焊接过程中的振动(VWC)和焊接后的振动(VSR)。结果表明,在两种条件下,CA6NM钢均呈现马氏体组织,其中VSR焊接接头呈现柱状包状,细小的马氏体勾勒出单个微珠,而VWC焊接接头呈现晶粒细化。在温度较高的区域,热影响区(HAZ)均出现少量δ相。VSR和VWC条件在硬度方面表现出相似的行为,HAZ硬度值与焊缝金属接近,但根部区域的HAZ硬度值更高。Charpy-V结果表明,haz的冲击值高于焊缝金属的冲击值。焊缝金属的低冲击值归因于来自焊条的夹杂物的存在。
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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