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材料工程 2015

加氢反应器环境服役的2.25Cr1Mo钢性能退化研究

DOI: 10.11868/j.issn.1001-4381.2015.01.015, PP. 82-88

王洁,聂宝华,蔡成,张峥

Keywords: 加氢反应器,力学性能,微观组织

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Abstract:

通过对比服役前后加氢反应器挂块母材和焊缝的力学性能,对2.25Cr1Mo钢的服役退化程度进行了分析.运用金相显微镜、扫描电子显微镜对服役材料的微观组织及断口形貌进行了观察和分析.结果表明运行12万小时挂块的力学性能下降较大,韧脆转变温度升高,并在晶界及碳化物处出现裂纹;部分碳化物粗化,呈链状分布在晶界附近,造成晶界弱化;基体合金元素含量降低,促进了P的晶界偏聚,降低了材料的回火抗力.

References

[1]	程丽华.石油炼制工艺学[M].北京:中国石化出版社,2005.CHENG L H. Petroleum Refining Technology [M].Beijing: China Petrochemical Press,2005.
[2]	李保锋,蔡连波,赵晓青,等. 加氢反应器安全运行探讨[J].石油化工腐蚀与防护,2009,26(4):5-8.LI B F, CAI L B, ZHAO X Q, et al. Safe operation analysis of hydroprocessing reactors[J]. Corrosion and Protection in Petrochemical Industry, 2009,26(4):5-8.
[3]	MOSS C J, KELLY P M. The mechanisms and detection of embrittlement in Cr-Mo pressure vessel steels[J]. Fatigue Fract Eng Mater Struct,1994,17(3):369-380.
[4]	YU J, McMAHON C J. The effects of composition and carbide precipitation on temper embrittlement of 2.25Cr1Mo steel[J]. Metallurgical Transactions A,1980,11(2):277-289.
[5]	NAGAO A, KURAMOTO S, ICHITANI K,et al. Visualization of hydrogen transport in high strength steels affected by stress fields and hydrogen trapping[J]. Scripta Materialia,2001,45(10):1227-1232.
[6]	YOSHINO K, McMAHON C J. The cooperative relation between temper embrittlement and hydrogen embrittlement in a high strength steel[J]. Metallurgical Transactions,1974,5(2):363-370.
[7]	PILLOT S,CHAUVY C,CORRE S,et al. Effect of temper and hydrogen embrittlement on mechanical properties of 2.25Cr-1Mo steel grades application to minimum pressurizing temperature (MPT) issues[J]. International Journal of Pressure Vessels and Piping,2013,110:17-23.
[8]	JIA R L. Study on the additive effect of hydrogen embrittlement and temper brittleness on 2.25Cr1Mo steel[J].Petrochemical Machinery,1987,16(10):4-10.
[9]	SHIMAZU H, KONOSU S, TANAKA Y,et al. Combined effect of temper and hydrogen embrittlement on threshold for hydrogen-induced fracture in Cr-Mo steels[J]. Journal of Pressure Vessel Technology,2013,135(2):021406.
[10]	WATANABE J.Temper embrittlement of 2.25Cr1Mo pressure vessel steel[A]. 29th Annual Petroleum Mechanical Engineering Conference[C].Dallas, TX:American Society of Mechanical Engineering,1974.
[11]	CURRY D A. Grain-size dependence of cleavage fracture toughness in mild steel[J].Nature,1978,276(2):50-56.
[12]	SHEN D D, SONG S H, YUAN Z X,et al. Effect of solute grain boundary segregation and hardness on the ductile-to-brittle transition for a CrMo low-alloy steel[J]. Materials Science and Engineering:A, 2005,394(1): 53-59.
[13]	禇武扬,肖纪美,李世琼. 钢中氢致裂纹机构研究[J].金属学报,1981,17(1):115-119. CHU W Y, XIAO J M, LI S Q. Mechanism of hydrogen cracking in steels[J]. Acta Metallurgica Sinica, 1981,17(1):115-119.
[14]	杨瑞成,王晖,郑丽平,等. 12Cr1MoV钢高温时效过程中组织结构的演变[J].金属热处理,2002,27(9):18-22. YANG R C, WANG H, ZHENG L P, et al. Evolution of microstructures of 12Cr1MoV steel during high temperature aging [J]. Heat Treatment of Metals, 2002,27(9):18-22.
[15]	MURZA J C, McMAHON C J. The effects of composition and microstructure on temper embrittlement in 2.25Cr1Mo steel[J]. J Eng Mater Technol,1980,102(4):369-375.
[16]	IVANI De SOUZA BOTT,LU?S FELIPE GUIMARAES De SOUZA, JORGE CARLOS FERREIRA JORGE,et al.Comparison between real and simulated degradation in a 1.25% Cr0.5% Mo steel for high temperature service[J]. Materials Characterization,2005,54(3):206-215.

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