Xulining
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- Professional Title:Research Fellow(Nature Science)
Supervisor of Doctorate Candidates
Alma Mater:中科院电子学研究所
Discipline:Materials Science
Education Level:研究生
Degree:博士
School/Department:新材料技术研究院
Contact Information
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- Paper Publications
- Lining Xu, Bei Wang, Jinyang Zhu, et al. Effect of Cr content on the corrosion performance of low-Cr alloy steel in a CO2 environment, Applied Surface Science, 2016, 379 :39-46..
- Dongyang Li, Lining Xu*, Shaoguang Feng, Minxu Lu, Inhibitor concentration on the corrosion behaviour of X70 steel in CO2 environments, Anti-Corrosion Methods and Materials,2017,64(2),209–217。3月.
- Lining Xu*, Jinyang Zhu, Bei Wang, Influence of Cr content and pH value on the semi-passivation behavior of low Cr pipeline steels, Acta Metallurgica Sinica, 2017, 53(6): 677-683。6月.
- Weijing Shang, Lining Xu*, Lijie Qiao, Jinxu Li, Passivation of X65 steel in NaHCO3 solution saturated with CO2 using thin wire specimens, Materials and Corrosion, 2017, 68: 952-960.9月.
- Wei Li, Lining Xu*, Lijie Qiao, Jinxu Li, Effect of free Cr content on corrosion behavior of 3Cr steels in a CO2 environment, Applied Surface Science, 2017, 425: 32-45.12月.
- Bei Wang, Lining Xu*, Guozhang Liu, Minxu Lu, Corrosion behavior and mechanism of 3Cr steel in CO2 environment with various Ca2+ concentration, Corrosion Science, 2018, 136 :210-220.5月.
- Tan, Chengtong,Xu, Xiuqing,Xu, Lining*,Yin, Chengxian,Qiao, Lijie,Effects of chloride concentration on CO2 corrosion of novel 3Cr2Al steel in simulated oil and gas well environments,Materials and Corrosion, 2019, 70(2): 366-376. 2月.
- Lining Xu*, Xiuqing Xu, Chengxian Yin, Lijie Qiao,CO2 corrosion behavior of 1%-13% Cr steel in relation to Cr content changes,Material Research Express,2019, 6(9): 1-12. 9月.
- Jinyang Zhu, Hongting Ren, Lining Xu*,Corrosion behavior and in-situ pH monitoring of a 3% chromium low alloy pipeline steel welded joint in a CO2 environment,Material Research Express,2019,6(11) : 1-13,11月.
- Ruohan Cao, Lining Xu*, Lijie Qiao*,Coupling effect of microstructure and hydrogen absorbed during service on pitting corrosion of 321 austenitic stainless steel weld joints,Corrosion Science, 2020, v164,108339 . 2020,3月.