材料研究学报  2013, Vol. 27 Issue (3): 331-337

研究论文 本期目录 | 过刊浏览 |

淬火冷速对转子30CrMoNiV511钢韧性的影响

黄军波 何毅 霍洁 殷福星

(中国一重能源装备材料科学研究所 天津 300457)

Effect of Quenching Cooling Rate on the Toughness of 30CrMoNiV511 Steel for Steam Turbine Rotor

HUANG Junbo* HE Yi, HUO Jie, YIN Fuxing

(Materials Research Institute for Energy Equipment, China First Heavy Industries, Tianjin 300457)

黄军波,何毅,霍洁,殷福星. 淬火冷速对转子30CrMoNiV511钢韧性的影响[J]. 材料研究学报, 2013, 27(3): 331-337.
HUANG Junbo, HE Yi, HUO Jie, YIN Fuxing. Effect of Quenching Cooling Rate on the Toughness of 30CrMoNiV511 Steel for Steam Turbine Rotor[J]. Chinese Journal of Materials Research, 2013, 27(3): 331-337.

摘要 参考文献 相关文章 Metrics 全文: PDF(5167 KB)   摘要: 使用热处理风冷炉模拟研究了大型汽轮机转子内外径处的冷却速率对转子材料30CrMoNiV511钢的组织转变及强韧性的影响。结果表明, 淬火冷却速率对转子材料的强度影响不明显, 而对冲击韧性的影响显著。随着淬火冷却速率从50 ℃/min逐渐降低至7 ℃/min, 淬火组织由下贝氏体逐渐向上贝氏体、粒状贝氏体及其混合组织转变, 冲击韧性由66 J急剧降低到16 J; 当冷却速率降低到5 ℃/min以下时, 组织中出现先共析铁素体, 且上贝氏体铁素体粗大, 碳化物分布极不均匀, 冲击韧性极差。不同冷却速率转子钢的微观组织及碳化物析出形态和分布是决定其冲击韧性的主要原因之一。 关键词 ： 金属材料,  30CrMoNiV511钢,  淬火冷却速率,  汽轮机转子,  冲击韧性     Abstract：Quenching cooling at different radius positions of large-scale steam turbine rotor were simulated by air-cooling heat treatment furnace. The effects of quenching cooling rate on microstructure, strength and toughness of 30CrMoNiV511 rotor steel were investigated. The results show that the cooling rate has a little influence on the strength, while the toughness evidently depends on it. As the cooling rate decrease gradually from 50 ℃/min to 7 oC/min, and the transformed microstructure changes from low bainite to upper bainite, granular bainite and their mixture. Meanwhile, impact toughness decreases sharply from 66 J to 16 J. When the cooling rate is below 5 ℃/min, proeutectoid ferrite is formed. The sub-unit of ferrite in upper bainite is coarse with uneven distribution of carbides, which results in extremely low toughness. The microstructure and carbides shape and distribution depending on the quenching cooling rate is one of the main reasons determining the impact toughness of rotor steel. Key words： metallic materials    30CrMoNiV511 steel    quenching cooling rate    steam turbine rotor    impact toughness 收稿日期: 2013-04-03      ZTFLH:  TG142   服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 黄军波 何毅 霍洁 殷福星 44.8K 链接本文: https://www.cjmr.org/CN/      或      https://www.cjmr.org/CN/Y2013/V27/I3/331 1 LIU Gaobo, Manufacturing process of 30CrMoNiV511 HP/IP rotor forgings, CFHI Technology, 3, 49(2012) (刘高波, 30CrMoNiV511高中压转子锻件制造, 一重技术, 3, 49(2012)) 2 TAO Kai, YU Shenjun, HAN Lu, YU Wenping, ZHAO Yongrang, WANG Jisheng, Development of turbing rotor materials, Materials Review, 26(1), 83(2012) (陶 凯, 于慎君, 韩 璐, 于文平, 赵永让, 王继生, 汽轮机转子材料的研究进展, 材料导报, 26(1), 83(2012)) 3 AN Yunzheng, PAN Jingda, FU Changpu, Microstructure Map of Turbogenerator Steel (Beijing, China Machine Press, 1997) p.50-53 (安运铮, 潘景达, 符长璞, 汽轮发电机用钢金相图谱(北京, 机械工业出版社, 1997) p.50-53) 4 SONG Chuanbao, JIN Jiayu, ZHANG Hao, Research for improving the impact toughness of 30CrMoNiV steel forgings, Heavy Casting and Forging, 2, 12(2001) (宋传宝, 金嘉瑜, 张 皓, 提高30CrMoNiV钢大锻件冲击韧性的研究, 大型铸锻件, 2, 12(2001)) 5 ZHANG Guoli, ZHANG Weidong, WANG Xiufeng, WANG Jinqiao, Research for improving impact toughness of B12N-S steel used for steam tubing rotor forgings, Heavy Casting and Forging, 4, 1(1999) (张国利, 张卫东, 王秀峰, 王金桥, 提高汽轮机转子锻件B12N-S钢冲击韧性的研究, 大型铸锻件, 4, 1(1999)) 6 SONG Chuanbao, XU Linda, ZHAO Lei, Research for improving the impact toughness and grains size of heavy 30Cr2MoV steel forgings, Heavy Casting and Forging, 2, 16(2002) (宋传宝, 许林达, 赵 磊, 改善30Cr2MoV钢大锻件冲击韧性及晶粒度的研究, 大型铸锻件, 2, 16(2002)) 7 M.Takahashi, H. 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