Acta Metall Sin  1990, Vol. 26 Issue (4): 83-86    DOI:

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INFLUENCE OF ELECTROMAGNETIC STIRRING ON DENDRITIC STRUCTURE AND MECHANICAL PROPERTIES OF LOW SULPHUR STEEL

HU Hanqi;ZHENG Riqi University of Science and Technology Beijing professor;Faculty of Casting;University of Science and Technology Beijing;Beijing 100083

HU Hanqi;ZHENG Riqi University of Science and Technology Beijing professor;Faculty of Casting;University of Science and Technology Beijing;Beijing 100083. INFLUENCE OF ELECTROMAGNETIC STIRRING ON DENDRITIC STRUCTURE AND MECHANICAL PROPERTIES OF LOW SULPHUR STEEL. Acta Metall Sin, 1990, 26(4): 83-86.

Abstract References Related Articles Recommended Metrics Download:  PDF(1074KB)  Export:  BibTeX | EndNote (RIS)       Abstract  The melt flow induced by the electromagnetic stirring in the molten low sulphursteel may fine the original austenite grains, but widen the secondary dendritic arm spacings.As a result, the ultimate tensile strength of the steel will be improved and the reduction ofarea will be remarkably decreased. The microalloying by an addition of Ce may retard the un-favourable effect of the electromagnetic stirring. Key words:  electromagnetic stirring      dendritic structure      plasticity      Received:  18 April 1990      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1990/V26/I4/83 1 Junze J, Kobayashi K F, Shingu P H. Metall Trans, 1984; 15A: 307 2 Stein D. Trans Am Foundrymen's Soc, 1980; 88: 631 3 北京钢铁学院,东北工学院编.工程力学,中册,第一分册,北京:人民教育出版社,1981:174 4 Ohno A. The Solidification of Metals, Tokyo. Chijin Shokan Co., 1967: 112 5 胡汉起,钟雪友,韩青有.金属学报,1987;23:A176 6 Feuervacher B, Hamacher H. Materials Science in Space, Berlin: Springer-Verlag, 1986: 122" [1] XU Yongsheng, ZHANG Weigang, XU Lingchao, DAN Wenjiao. Simulation of Deformation Coordination and Hardening Behavior in Ferrite-Ferrite Grain Boundary[J]. 金属学报, 2023, 59(8): 1042-1050. [2] ZHANG Zhefeng, LI Keqiang, CAI Tuo, LI Peng, ZHANG Zhenjun, LIU Rui, YANG Jinbo, ZHANG Peng. Effects of Stacking Fault Energy on the Deformation Mechanisms and Mechanical Properties of Face-Centered Cubic Metals[J]. 金属学报, 2023, 59(4): 467-477. [3] CHEN Xueshuang, HUANG Xingmin, LIU Junjie, LV Chao, ZHANG Juan. Microstructure Regulation and Strengthening Mechanisms of a Hot-Rolled & Intercritical Annealed Medium-Mn Steel Containing Mn-Segregation Band[J]. 金属学报, 2023, 59(11): 1448-1456. [4] ZHENG Shijian, YAN Zhe, KONG Xiangfei, ZHANG Ruifeng. Interface Modifications on Strength and Plasticity of Nanolayered Metallic Composites[J]. 金属学报, 2022, 58(6): 709-725. [5] ZHANG Xinfang, XIANG Siqi, YI Kun, GUO Jingdong. Controlling the Residual Stress in Metallic Solids by Pulsed Electric Current[J]. 金属学报, 2022, 58(5): 581-598. [6] GUO Xiangru, SHEN Junjie. Modelling of the Plastic Behavior of Cu Crystal with Twinning-Induced Softening and Strengthening Effects[J]. 金属学报, 2022, 58(3): 375-384. [7] GUO Haohan, YANG Jie, LIU Fang, LU Rongsheng. Constraint Related Fatigue Crack Initiation Life of GH4169 Superalloy[J]. 金属学报, 2022, 58(12): 1633-1644. [8] WANG Huiyuan, XIA Nan, BU Ruyu, WANG Cheng, ZHA Min, YANG Zhizheng. Current Research and Future Prospect on Low-Alloyed High-Performance Wrought Magnesium Alloys[J]. 金属学报, 2021, 57(11): 1429-1437. [9] ZHANG Lin, GUO Xiao, GAO Jianwen, DENG Anyuan, WANG Engang. Effect of Electromagnetic Stirring on Microstructure and Mechanical Properties of TiB2 Particle-Reinforced Steel[J]. 金属学报, 2020, 56(9): 1239-1246. [10] DENG Yahui, YANG Yinhui, PU Chaobo, NI Ke, PAN Xiaoyu. Effect of Mn Addition on High Temperature Tensile Behavior of 23%Cr Low Nickel Type Duplex Stainless Steel[J]. 金属学报, 2020, 56(7): 949-959. [11] ZHANG Zhefeng,SHAO Chenwei,WANG Bin,YANG Haokun,DONG Fuyuan,LIU Rui,ZHANG Zhenjun,ZHANG Peng. Tensile and Fatigue Properties and Deformation Mechanisms of Twinning-Induced Plasticity Steels[J]. 金属学报, 2020, 56(4): 476-486. [12] REN Zhongming,LEI Zuosheng,LI Chuanjun,XUAN Weidong,ZHONG Yunbo,LI Xi. New Study and Development on Electromagnetic Field Technology in Metallurgical Processes[J]. 金属学报, 2020, 56(4): 583-600. [13] LIU Yi, TU Jian, YANG Weihua, YIN Ruisen, TAN Li, HUANG Can, ZHOU Zhiming. Effect of Deformation and Annealing Treatment on Microstructure Evolution of Fe47Mn30Co10Cr10B3 Dual-Phase High-Entropy Alloy[J]. 金属学报, 2020, 56(12): 1569-1580. [14] Xuexiong LI,Dongsheng XU,Rui YANG. Crystal Plasticity Finite Element Method Investigation of the High Temperature Deformation Consistency in Dual-Phase Titanium Alloy[J]. 金属学报, 2019, 55(7): 928-938. [15] Qingdong XU, Kejian LI, Zhipeng CAI, Yao WU. Effect of Pulsed Magnetic Field on the Microstructure of TC4 Titanium Alloy and Its Mechanism[J]. 金属学报, 2019, 55(4): 489-495. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed