奥氏体不锈钢焊缝金属低温性能影响因素综述

A review on factors affecting cryogenic mechanical properties of austenitic stainless steel weld metal

  • 摘要: 随着低温系统向77 K以下应用发展,低温工程对奥氏体不锈钢焊接接头力学性能提出了更加苛刻的要求,焊缝金属的低温强度、低温冲击韧性及抗氢脆性成为低温工况安全运行的关键性能。因此,该文详细阐述低温对奥氏体不锈钢焊缝金属强度、冲击韧性的影响及不同温度导致的两种氢脆行为,并深入介绍了铁素体相、马氏体相变、氮含量对焊缝金属低温强度的提升作用及这些因素与析出相、夹杂物对低温冲击韧性进一步降低作用,然后着重论述了奥氏体相的高稳定性对焊缝金属抗氢脆性的积极作用及铁素体相的不利作用。在实际应用中焊缝金属的性能同时受多种因素地共同作用,因此对于相同因素对不同性能的研究将有助于提高低温下奥氏体不锈钢焊缝金属的使用安全性。

     

    Abstract: With the development of cryogenic environments down to 77 K, cryogenic engineering has put forward increasingly stringent requirements for mechanical properties of austenitic stainless steel welded joints. Cryogenic strength, impact toughness and resistance to hydrogen embrittlement of weld metal have become critical components for ensuring secure operation in such circumstances. Therefore, influence of cryogenic temperatures on impact toughness and strength of austenitic stainless steel weld metal and two behaviors of hydrogen embrittlement caused by varying temperatures were discussed in this research. Additionally, effects of ferrite phase, martensitic phase transformation and nitrogen content on low temperature strength of weld metal was introduced, as well as these factors, precipitates and inclusions further reducing impact toughness at low temperature. Then, it also explored remarkable stability of austenitic phase in weld metal, emphasizing its resilience to both favorable consequences of hydrogen embrittlement and unfavorable impacts of ferritic phase. Multiple factors simultaneously affected the performance of weld metal in practical applications. In turn, investigating these variables’ effects on different attributes could improve safety of austenitic stainless steel weld metal in cryogenic conditions.

     

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