Weldability evaluation of X80 sour line pipe using a combination of thermal simulation and actual girth welding

Q4 Materials Science

Welding International Pub Date : 2022-12-02 DOI:10.1080/09507116.2022.2155091

G. Z. Batista, L. P. Carvalho, F. Arroyo

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引用次数: 0

Abstract

Abstract The weldability studies of API 5LX80 pipes developed for sour service are very recent and limited information about its heat-affected zone (HAZ) properties can be found. This paper presents a comprehensive evaluation of HAZ using both thermal simulation and the production of actual girth weld joints. The test methodology included microstructural analysis, Charpy impact test, hardness (HV10), microhardness (HV0.1), and sulfide stress cracking tests (SCC). The intercritical coarse grain HAZ presented impact toughness reduction from values above 300 J to less than 50 J at 0 °C when heat input is increased above 1.5 kJ/mm. It can be explained by grain coarsening and martensite-austenite (MA) formation as a ‘necklace’ structure at previous austenite grain boundaries. Hardness and microhardness values for both simulated and actual HAZ were below the maximum limit of 250HV usually specified by industry. Specimens submitted to the sulfide stress cracking (SSC) tests did not present any crack demonstrating that the welded joint is appropriate for sour environments. Finally, a maximum heat input of 1.5 kJ/mm is recommended for field welding. For higher heat inputs, a deeper evaluation of HAZ toughness should be done. The results contribute to supporting the application of this material as an alternative for long-distance high-pressure pipelines with H2S.

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采用热模拟和实际环焊缝相结合的方法评估X80酸性管线管道的焊接性

摘要API 5LX80酸性管道的可焊性研究是最新的，关于其热影响区（HAZ）特性的信息有限。本文利用热模拟和实际环焊缝的生产对HAZ进行了综合评估。试验方法包括微观结构分析、夏比冲击试验、硬度（HV10）、显微硬度（HV0.1）和硫化物应力开裂试验（SCC）。临界间粗晶粒HAZ的冲击韧性从300以上降低 J小于50 0处的J 当热输入增加到1.5以上时为°C kJ/mm。这可以通过晶粒粗化和马氏体-奥氏体（MA）在以前的奥氏体晶界形成“项链”结构来解释。模拟和实际HAZ的硬度和显微硬度值均低于行业通常规定的250HV的最大极限。提交硫化物应力开裂（SSC）试验的试样未出现任何裂纹，表明焊接接头适用于酸性环境。最后，最大热输入为1.5 现场焊接建议使用kJ/mm。对于较高的热输入，应对HAZ韧性进行更深入的评估。研究结果有助于支持该材料作为含H2S的长距离高压管道的替代材料的应用。

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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来源期刊

Welding International Materials Science-Metals and Alloys

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： Welding International provides comprehensive English translations of complete articles, selected from major international welding journals, including: Journal of Japan Welding Society - Japan Journal of Light Metal Welding and Construction - Japan Przeglad Spawalnictwa - Poland Quarterly Journal of Japan Welding Society - Japan Revista de Metalurgia - Spain Rivista Italiana della Saldatura - Italy Soldagem & Inspeção - Brazil Svarochnoe Proizvodstvo - Russia Welding International is a well-established and widely respected journal and the translators are carefully chosen with each issue containing a balanced selection of between 15 and 20 articles. The articles cover research techniques, equipment and process developments, applications and material and are not available elsewhere in English. This journal provides a valuable and unique service for those needing to keep up-to-date on the latest developments in welding technology in non-English speaking countries.