Creep rupture study of dissimilar welded joints of P92 and 304L steels

IF 2.4 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Gaurav Dak, Krishna Guguloth, R. S. Vidyarthy, Dariusz Fydrych, Chandan Pandey
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Abstract

The present work investigates the high-temperature tensile and creep properties of the dissimilar metal weld joints of 304L austenitic stainless steel (SS) and P92 creep strength-enhanced ferritic-martensitic (CSEF/M) steel under different testing condition. Thermanit MTS 616 filler rod (P92 filler) and the multi-pass tungsten inert gas (TIG) welding process were used to create the dissimilar weld connection. The ultimate tensile strength (UTS) was evaluated in the temperature range of 450–850 °C. Creep testing was conducted at a temperature of 650 °C while applying stress levels of 130 MPa, 150 MPa, 180 MPa, and 200 MPa. The shortest creep life (2.53 h) was recorded for the specimen tested at 650 °C and subjected to 200 MPa, whereas the longest creep life (~ 242 h) was observed for the specimen tested at 650 °C with a stress of 130 MPa. The linear regression model was developed using an applied stress (σ) v/s rupture time (tR) plot at 650 °C. The applied stress and rupture time followed the logarithmic equation: log(tR) = 22.57566 + (-9.55294) log (σ). The detailed microstructural characterization and micro-hardness distribution across the fractured specimens was carried out. The findings demonstrated that the service life span of this weld joint at high temperature and stress conditions is influenced by the undesired microstructural changes at elevated temperature, such as coarsening of the precipitates, development of the Laves phase, softening of the matrix, and strain-ageing phenomenon.

Abstract Image

Abstract Image

P92 和 304L 钢异种焊接接头的蠕变断裂研究
本研究探讨了 304L 奥氏体不锈钢(SS)和 P92 蠕变强度增强型铁素体-马氏体钢(CSEF/M)异种金属焊接接头在不同测试条件下的高温拉伸和蠕变性能。采用 Thermanit MTS 616 焊条(P92 焊料)和多道钨极惰性气体(TIG)焊接工艺来创建异种焊缝连接。在 450-850 °C 的温度范围内评估了极限拉伸强度 (UTS)。蠕变测试在 650 °C 的温度下进行,同时施加 130 兆帕、150 兆帕、180 兆帕和 200 兆帕的应力水平。在 650 ℃ 和 200 MPa 下测试的试样蠕变寿命最短(2.53 小时),而在 650 ℃ 和 130 MPa 下测试的试样蠕变寿命最长(约 242 小时)。线性回归模型是利用 650 ℃ 下的外加应力 (σ) v/s 断裂时间 (tR) 图建立的。外加应力和断裂时间遵循对数方程:log(tR) = 22.57566 + (-9.55294) log (σ)。对断裂试样进行了详细的显微结构表征和显微硬度分布。研究结果表明,该焊点在高温和应力条件下的使用寿命受到高温下不良微观结构变化的影响,如析出物变粗、Laves 相的形成、基体软化和应变时效现象。
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来源期刊
Welding in the World
Welding in the World METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
4.20
自引率
14.30%
发文量
181
审稿时长
6-12 weeks
期刊介绍: The journal Welding in the World publishes authoritative papers on every aspect of materials joining, including welding, brazing, soldering, cutting, thermal spraying and allied joining and fabrication techniques.
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