基础(拓扑)
环境科学
石油工程
核工程
废物管理
材料科学
法律工程学
工程类
数学
数学分析
作者
Yajun Li,Nan Liu,Tianrui Li,Xuemei Lu,Yanjiao Li
摘要
ABSTRACT 2205 dual‐phase stainless steel is widely used in petrochemical equipment. This paper simulates welding, post‐weld heat treatment, and operation conditions of 2205 steel. Microstructure evolution and properties were analyzed via metallography, impact testing, SEM, EDS, and electrochemical methods. Results showed microstructure degradation after 580°C heat treatment, with precipitate formation causing toughness loss. Precipitate diameter was ˜38 nm. Critical corrosion temperature and pitting resistance decreased with increasing heat treatment temperature. It is suggested that 2205 dual‐phase stainless steel should avoid post‐welding heat treatment during the fabricating process. For 2205 dual‐phase stainless steel equipment or parts that must or have completed post‐welding heat treatment, the risk assessment should be carried out based on the service temperature, etc. If necessary, solution treatment should be carried out to maximize the recovery of material properties.
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