Characterization of As-Welded Microstructure in a P91 Steel

A. Marzocca, C. A. Danón, M. Luppo, Flavio Soldera, M. Zalazar
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Abstract

The microstructure of the heat affected zone (HAZ) and fusion zone (FZ) in the as-welded condition of a single-pass weld performed by the flux-cored arc welding (FCAW) process was studied in a P91 steel using microhardness measurements, field-emission scanning electron microscopy, transmission electron microscopy, and x-ray diffraction. The evolution of precipitates in each region of the single-pass weld was analyzed, and particular attention was paid to the presence of retained austenite (RA). Experimental observations indicated that M23 C6 carbide played a major role in the thermal cycle associated with the weldment. On one hand, the dissolution of M23 C6 led to the precipitation of spherical NbCN in the finegrained HAZ (FGHAZ) near the coarse-grained HAZ (CGHAZ). On the other hand, the total or partial dissolution of M23 C6 carbides changed the chemical composition of the initially formed austenite. In the regions where the M23 C6 carbides were completely dissolved (i.e., the CGHAZ and FZ), retained austenite was observed as a thin, continuous film along primary austenite grains and lath boundaries. Instead, a shell of retained austenite was observed around some partially dissolved M23 C6 of the intercritical HAZ (ICHAZ) and FGHAZ.
P91 钢焊接后微观结构的表征
采用显微硬度测量、场发射扫描电子显微镜、透射电子显微镜和 X 射线衍射法研究了 P91 钢在药芯弧焊(FCAW)工艺下单道焊缝焊接状态下的热影响区(HAZ)和熔合区(FZ)的微观结构。分析了单程焊缝各区域析出物的演变,并特别关注了残余奥氏体(RA)的存在。实验观察表明,M23 C6 碳化物在与焊接相关的热循环中发挥了重要作用。一方面,M23 C6 的溶解导致球状 NbCN 在粗晶 HAZ(CGHAZ)附近的细晶 HAZ(FGHAZ)中析出。另一方面,M23 C6 碳化物的全部或部分溶解改变了最初形成的奥氏体的化学成分。在 M23 C6 碳化物完全溶解的区域(即 CGHAZ 和 FZ),沿主奥氏体晶粒和板条边界观察到的残留奥氏体是一层薄而连续的薄膜。相反,在临界间HAZ(ICHAZ)和FGHAZ的一些部分溶解的M23 C6周围观察到了保留奥氏体的外壳。
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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