A superheater tube superalloy GH2984 with excellent properties

Acta Metall Sin

2005, Vol. 41

Issue (11): 1221-1227 DOI:

Research Articles

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A superheater tube superalloy GH2984 with excellent properties

GUO Jianting; DU Xiukui

Institute of Metal Research; The Chinese Academy of Sciences

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GUO Jianting; DU Xiukui. A superheater tube superalloy GH2984 with excellent properties. Acta Metall Sin, 2005, 41(11): 1221-1227 .

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Abstract A superheater tube superalloy GH2984 with excellent properties had been successfully developed, which does not contains expensive element Co but has 32%-36% Fe, so it has low cost. In this paper, the characteristics of GH2984, including the chemical composition, mechanical and chemical properties, the microstructure stability after long-time thermal exposure and the processing property at hot and cold conditions have been introduced briefly. Then the superiority of this alloy used in ship boiler and ultra-supercritical coal-fired boiler as superheater was analyzed. The results from practical application to the ship boilers show that the GH2984 superalloy is suitable to the ship boiler superheater tube material, and the alloy also is very important candidate of a superheater and reheater materials in the ultra-supercritical steam boilers

Key words: Fe base superalloy superheater material mechanical property

Received: 30 June 2005

ZTFLH:

TG132.3

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https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2005/V41/I11/1221

[1] Institute of Metal Research, CAS, Shanghai No.5 Steel Plant, Harbin 703 Institute. The Investigation of GH2984 Superalloy, 1991 (中国科学院金属研究所,冶金工业部上海第五钢铁厂,造船总公司七院703所． GH984合金研制总结,1991)
[2] Chen M, Ma Y X, Xue G Y, Chen Q D. Design Characteristic of Main Boiler in Certain Ship, 2004 (陈明,马玉翔,薛光亚,陈起铎．某船主锅炉的设计特点, 待发表资料,2004年)
[3] Lu Y S. Power Eng, 2003; 23: 2615 (陆燕荪．动力工程,2003;23:2615)
[4] Wang S H, Du X K, Xu H Z, Yu C S, Guo J T, Hu Q W. Acta Metall Sin, 1995; 31(Suppl.): S137 (王淑荷,杜秀魁,许惠珍,于长生,郭建亭,胡秋文．金属学报,1995;31(增刊):S137)
[5] Wang S H, Du X K, Guo J T. Trans Met Heat Treat, 1998; 19(3):36 (王淑荷,杜秀魁,郭建亭．金属热处理学报,1998;19(3):36)
[6] Wang S H, Du X K, Zhao J F, Guo J T. Mater Mech Eng, 1999; 23(2): 34 (王淑荷,杜秀魁,赵金福,郭建亭．机械工程材料,1999;23(2): 341
[7] Wang S H, Du X K, Guo J T, Xu H Z. Corros Sci Prot Technol, 2002; 14: 284 (王淑荷,杜秀魁,郭建亭,许惠珍．腐蚀科学与防护技术,2002; 14:284)
[8] Wang S H, Du X K, Xu H Z, Guo J T, Hu Q W. Trans Met Heat Treat, 1995; 16(3): 51 (王淑荷,杜秀魁,许惠珍,郭建亭,胡秋文．金属热处理学报, 1995;16(3):51)
[9] Zhao S Q, Dong J X, Zhang M C, Xie X S. J Iron Steel Res, 2003; 15(7): 160 (赵双群,董建新,张麦仓,谢锡善．钢铁研究学报,2003;15(7): 160)
[10] Institute of Metal Research, CAS. Mechanical Properties and Microstructure Stability of GH2984 Superalloy after Long-time Thermal Exposure at 700℃, 1991 (中国科学院金属研究所． GH2984合金700℃长期时效后的性能和组织稳定性的研究, 1991)
[11] Stroh A N. Proc R Soc London, 1954; 223A: 404
[12] Zhao G P, Zhao B K. In: China Aeronautical Materials Handbook, Vol.2, Beijing: China Standard Press, 2002:399 (赵光普,赵炳堃．见:中国航空材料手册编辑委员会编,中国航空材料手册,第2卷．北京:中国标准出版社,2002:399)
[13] Zhao S Q, Dong J X, Xie X S, Smith G D, Patel S J. In: Green K A, Pollock T M, Harada H. eds., Superalloy 2004, Champion, PA: TMS, 2004: 63

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