Acta Metall Sin  1996, Vol. 32 Issue (10): 1027-1033    DOI:

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COMPUTER SIMULATION OF FORMATION OF INCLUSIONS DURING SOLIDIFICATION OF RESULFURED COMPOSITE SYSTEM STEEL

LOU Dechun;CUI Kun;WU Xiaochun;ZHANG Jie(Huazhong University of Science and Technology;Wuhan 430074)(Department of Materials Science and Engineering;Huazhong University of Science and Technology;Wuhan 430074)(Manuscript received 1995-12-15;in revised form 1996-06-25)

LOU Dechun;CUI Kun;WU Xiaochun;ZHANG Jie(Huazhong University of Science and Technology;Wuhan 430074)(Department of Materials Science and Engineering;Huazhong University of Science and Technology;Wuhan 430074)(Manuscript received 1995-12-15;in revised form 1996-06-25). COMPUTER SIMULATION OF FORMATION OF INCLUSIONS DURING SOLIDIFICATION OF RESULFURED COMPOSITE SYSTEM STEEL. Acta Metall Sin, 1996, 32(10): 1027-1033.

Abstract References Related Articles Recommended Metrics Download:  PDF(402KB)  Export:  BibTeX | EndNote (RIS)       Abstract  A computer program for simulation and prediction of formation of inclusions in steels during solidification was developed.Microsegregation of solutes during solidification of steels is calculated based on CLYNE-KURTZ's model.By use of this program the composition of solutes and formation of RE inclusions in liquid steels can be simulated at any time.The predicted composition of inclusions accords with the experimental result. Key words:  free-cutting steel      solidification      inclusion      simulatiom      Received:  18 October 1996      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/Y1996/V32/I10/1027 1SubramanianSV,JiangJ,kayDAR．ProcSymponInclusionandTheirInfluenceonMaterialBehaviour,ASM,1988:92SubramanianSV,JiangJ,KayDAR．ProcSymponInclusionandTheirInfluenceonMaterialBehaviour,ASM,1988:133GayeH,GatellierC．ProcSymponCleanSteelConference,Balatoufured:IronandSteelSociety,1986:64ClyneTW,KurzW．MetallTrans,1981;12A:9655TooruM．MaterTransJIM,1992;33:7836SigeakiM．The6thJAPAN-USSRJointSymposiumonPhysicalChemistryofMetallurgicalProcesses,Tokyo:ISIJ,1977:477BunyanPJ,DellarS,BlakeN．MaterForum,1992;16:2158BarinI,KnackeO．ThermochemicalPropertiesofInorganicSubstances．NewYork:AIME1973:539魏寿昆．冶金过程热力学．北京:冶金工业出版社,1980:5710董元,韩其勇．金属学报,1986;22:A15511江来珠．华中理工大学博士学位论文,199012娄德春,吴晓春,崔．钢铁研究,1995;(3):29 [1] MA Dexin, ZHAO Yunxing, XU Weitai, WANG Fu. Effect of Gravity on Directionally Solidified Structure of Superalloys[J]. 金属学报, 2023, 59(9): 1279-1290. [2] ZHANG Jian, WANG Li, XIE Guang, WANG Dong, SHEN Jian, LU Yuzhang, HUANG Yaqi, LI Yawei. Recent Progress in Research and Development of Nickel-Based Single Crystal Superalloys[J]. 金属学报, 2023, 59(9): 1109-1124. [3] CHEN Runnong, LI Zhaodong, CAO Yanguang, ZHANG Qifu, LI Xiaogang. Initial Corrosion Behavior and Local Corrosion Origin of 9%Cr Alloy Steel in Cl－Containing Environment[J]. 金属学报, 2023, 59(7): 926-938. [4] HOU Juan, DAI Binbin, MIN Shiling, LIU Hui, JIANG Menglei, YANG Fan. Influence of Size Design on Microstructure and Properties of 304L Stainless Steel by Selective Laser Melting[J]. 金属学报, 2023, 59(5): 623-635. [5] LIU Jihao, ZHOU Jian, WU Huibin, MA Dangshen, XU Huixia, MA Zhijun. Segregation and Solidification Mechanism in Spray-Formed M3 High-Speed Steel[J]. 金属学报, 2023, 59(5): 599-610. [6] ZHANG Yuexin, WANG Jujin, YANG Wen, ZHANG Lifeng. Effect of Cooling Rate on the Evolution of Nonmetallic Inclusions in a Pipeline Steel[J]. 金属学报, 2023, 59(12): 1603-1612. [7] SU Zhenqi, ZHANG Congjiang, YUAN Xiaotan, HU Xingjin, LU Keke, REN Weili, DING Biao, ZHENG Tianxiang, SHEN Zhe, ZHONG Yunbo, WANG Hui, WANG Qiuliang. Formation and Evolution of Stray Grains on Remelted Interface in the Seed Crystal During the Directional Solidification of Single-Crystal Superalloys Assisted by Vertical Static Magnetic Field[J]. 金属学报, 2023, 59(12): 1568-1580. [8] LIANG Chen, WANG Xiaojuan, WANG Haipeng. Formation Mechanism of B2 Phase and Micro-Mechanical Property of Rapidly Solidified Ti-Al-Nb Alloy[J]. 金属学报, 2022, 58(9): 1169-1178. [9] LI Shanshan, CHEN Yun, GONG Tongzhao, CHEN Xingqiu, FU Paixian, LI Dianzhong. Effect of Cooling Rate on the Precipitation Mechanism of Primary Carbide During Solidification in High Carbon-Chromium Bearing Steel[J]. 金属学报, 2022, 58(8): 1024-1034. [10] LI Yanqiang, ZHAO Jiuzhou, JIANG Hongxiang, HE Jie. Microstructure Formation in Directionally Solidified Pb-Al Alloy[J]. 金属学报, 2022, 58(8): 1072-1082. [11] SUN Yangting, LI Yiwei, WU Wenbo, JIANG Yiming, LI Jin. Effect of Inclusions on Pitting Corrosion of C70S6 Non-Quenched and Tempered Steel Doped with Ca and Mg[J]. 金属学报, 2022, 58(7): 895-904. [12] GUO Dongwei, GUO Kunhui, ZHANG Fuli, ZHANG Fei, CAO Jianghai, HOU Zibing. A New Method for CET Position Determination of Continuous Casting Billet Based on the Variation Characteristics of Secondary Dendrite Arm Spacing[J]. 金属学报, 2022, 58(6): 827-836. [13] WU Guohua, TONG Xin, JIANG Rui, DING Wenjiang. Grain Refinement of As-Cast Mg-RE Alloys: Research Progress and Future Prospect[J]. 金属学报, 2022, 58(4): 385-399. [14] DING Zongye, HU Qiaodan, LU Wenquan, LI Jianguo. In Situ Study on the Nucleation, Growth Evolution, and Motion Behavior of Hydrogen Bubbles at the Liquid/ Solid Bimetal Interface by Using Synchrotron Radiation X-Ray Imaging Technology[J]. 金属学报, 2022, 58(4): 567-580. [15] LIU Jie, XU Le, SHI Chao, YANG Shaopeng, HE Xiaofei, WANG Maoqiu, SHI Jie. Effect of Rare Earth Ce on Sulfide Characteristics and Microstructure in Non-Quenched and Tempered Steel[J]. 金属学报, 2022, 58(3): 365-374. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed