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Science and Technology of Welding and Joining Volume 6, 2001 - Issue 3
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Regular Papers

Microstructural evolution in seven 2.25Cr–1Mo superheater outlet headers resulting from service exposure

D.R.G. MitchellThe Materials Division, ANSTO, PMB1, Menai, NSW2234, Australia
&
R. SmallPacific Power International, PO Box 19, University of Newcastle Union, Callaghan, NSW2308, Australia
Pages 168-176 | Published online: 04 Dec 2013

Citations (12)

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Read on this site (2)

R. D. Fu, Y. Q. Yang, C. Y. Wang & W. H. Zhang. (2008) Effects of weld thermal cycles and post-welding tempering on second phase particles in 2·25Cr–1Mo–0·25V steels. Science and Technology of Welding and Joining 13:4, pages 349-356.
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T. Ohba, K. Kimura, F. Abe, K. Yagi & I. Nonaka. (2005) Degradation in tensile and creep properties of 2.25Cr–1Mo steel by long term service in plant. Materials Science and Technology 21:4, pages 476-482.
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Articles from other publishers (10)

Hannah Schönmaier, Thomas Kremmer, Manfred Brabetz, Ronny Krein, Hannes Pahr, Martin Peruzzi & Ronald Schnitzer. (2022) High-resolution characterization of precipitates in multi-layer submerged-arc welded 2.25Cr-1Mo-0.25V steel. Materials Today Communications 31, pages 103299.
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G. Prakasham, L. Siva Rama Krishna, A. Seshu Kumar & J. Kandasamy. (2022) Microstructure characterization and mechanical properties of 2.25Cr-1Mo steel pipes using pulsed current GTAW. Materials Today: Proceedings 62, pages 4098-4107.
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Qing Li, Guangxu Cheng, Mu Qin, Yafei Wang & Zaoxiao Zhang. (2021) Research on Carbide Characteristics and Their Influence on the Properties of Welding Joints for 2.25Cr1Mo0.25V Steel. Materials 14:4, pages 891.
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Tao Wei, Kai Ding, Guanzhi Wu, Xia Liu, Manjie Fan, Yanbin Zhang, Yi He, Xin Huo & Yulai Gao. (2021) Stress rupture initiated by the carbides in the grain boundaries of the multi-pass weld metal. Journal of Materials Research and Technology 10, pages 282-290.
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Apoorv Krishna, Siuli Dutta, Kasimuthumaniyan Subramanian, Ashis K. Panda, Premkumar Murugaiyan & Rajat K. Roy. (2018) Evaluation of Microstructural and Mechanical Behaviours of Tempered 2.25Cr–1Mo Steel Through Electromagnetic Characterization. Transactions of the Indian Institute of Metals 71:10, pages 2395-2402.
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Yafei Wang, Guangxu Cheng, Mu Qin, Qing Li, Zaoxiao Zhang, Kang Chen, Yun Li, Haijun Hu, Wei Wu & Jianxiao Zhang. (2017) Effect of high temperature deformation on the microstructure, mechanical properties and hydrogen embrittlement of 2.25Cr–1Mo-0.25 V steel. International Journal of Hydrogen Energy 42:38, pages 24549-24559.
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Thuy Dang Nguyen, Kota Sawada, Hideaki Kushima, Masaaki Tabuchi & Kazuhiro Kimura. (2014) Change of precipitate free zone during long-term creep in 2.25Cr–1Mo steel. Materials Science and Engineering: A 591, pages 130-135.
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K. Moriyama, A. Kanaya, J. Kusumoto, K. Koba, T. Kamisasanuki, T. Imazato & K. Nakashima. (2009) Estimation of material properties and maintenance of pressure parts of thermal power plant boilers under long-term service of 300,000 hours. Materials Science and Engineering: A 510-511, pages 142-148.
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D.R.G Mitchell & C.J Ball. (2001) A quantitative X-ray diffraction and analytical electron microscopy study of service-exposed 2.25Cr–1Mo steels. Materials Characterization 47:1, pages 17-26.
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D.R.G. Mitchell. (2001) Some applications of analytical TEM to the characterisation of high temperature equipment. Micron 32:8, pages 831-840.
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