Acta Metall Sin  1993, Vol. 29 Issue (8): 61-66    DOI:

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SOLUTE DISTRIBUTION IN RAPIDLY SOLIDIFIED Al-8wt-%Fe RIBBON

TANG Yali;SHEN Ningfu Zhengzhou Institute of Technologylecturer;Reseach Centre for Materials;Zhengzhou Institute of Technology; Zhengzhou 450002

TANG Yali;SHEN Ningfu Zhengzhou Institute of Technologylecturer;Reseach Centre for Materials;Zhengzhou Institute of Technology; Zhengzhou 450002. SOLUTE DISTRIBUTION IN RAPIDLY SOLIDIFIED Al-8wt-%Fe RIBBON. Acta Metall Sin, 1993, 29(8): 61-66.

Abstract References Related Articles Recommended Metrics Download:  PDF(1110KB)  Export:  BibTeX | EndNote (RIS)       Abstract  Study was made of the solute content and distribution of cellular structure atdifferent growth rates in rapidly solidified Al-8wt-% Fealloy. The alloy solidified as cellularstructure with inter-cellular regions composed of many randomly oriented Al-Fe particles.At the highest growth rates, the cell-spacing exceeds the characteristic diffusion length D/vby a factor of 83. The rate of increase of the average cell composition with growth rate iscompared with that predicted by different models. Key words:  rapid solidification      solute content      growth rate      undercooling      Al-8wt-％Fe alloy      Received:  18 August 1993      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/Y1993/V29/I8/61 1 Sarreal J A, Abbaschian G J. Metall Trans, 1986; 17A: 173 2 Palacio H A, Solari M, Biloni H. J Crystalgrwoth, 1985; 73: 369 3 Boettinger W J, Shechtman D, Schaefer R J Biancaniello F S. Metall Trans, 1984; 15A: 55 4 Goldstein J I, in: Goldstein J I, Joy D C eds., Introduction to Analytical Electron Microscopy, New York: Plenum, 1974; 83 5 Carrard M, Gremand M, Pieranroni M. Scrita Metall, 1991; 25: 925 6 Boettinger W J, Bendersky L A, Coriell S R, Schaefer R J, Biancaniello F S. J Crystal Grwth, 1987; 80: 17 7 Murray J L. Mater Res Soc Symp Proc, 1983; 19: 249 8 Kurz W, Fisher D J, Acta Metall, 1981; 29: 11． 9 Ungar L H, Brown R A. Phys Rev, 1985; B23: 53 10 Aziz M J. Appl Phys, 1982; 53: 1158 11 Aziz M J. Appl Phys Letters, 1983: 43: 552 12 Lipton J, Kurz W, Trivedi R. Acta Metall, 1987; 35: 957 13 Chu M G, Granger D A. Metall Trans, 1990; 21A: 205 14 Boettinger W J, Bendersky L, Early J G. Metall Trans, 1986; 17A: 781 15 汤亚力,郑州工学院硕士学位论文,1990 16 Levi C G, Metall Trans, 1988; 19A: 687 17 Burden M H, Hunt J D. J Crystal Growth, 1974; 22: 109 18 Huang S C, Glicksman M E. Acta Metall, 1981; 29: 701 19 Kurz W, Giovanola B, Trivedi R. Acta Metall, 1986; 34: 823# [1] QI Zhao, WANG Bin, ZHANG Peng, LIU Rui, ZHANG Zhenjun, ZHANG Zhefeng. Effects of Stress Ratio on the Fatigue Crack Growth Rate Under Steady State of Selective Laser Melted TC4 Alloy with Defects[J]. 金属学报, 2023, 59(10): 1411-1418. [2] 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. [3] XU Junfeng, ZHANG Baodong, Peter K Galenko. Model of Eutectic Transformation Involving Intermetallic Compound[J]. 金属学报, 2021, 57(10): 1320-1332. [4] Kuanhui HU, Xinping MAO, Guifeng ZHOU, Jing LIU, Zhifen WANG. Effect of Si and Mn Contents on the Microstructure and Mechanical Properties of Ultra-High Strength Press Hardening Steel[J]. 金属学报, 2018, 54(8): 1105-1112. [5] Yun LI, Lianjie LIU, Xinming LI, Jinfu LI. Solidification of Undercooled Co75B25 Alloy[J]. 金属学报, 2018, 54(8): 1165-1170. [6] Dandan FAN, Junfeng XU, Yanan ZHONG, Zengyun JIAN. Effect of Superheated Temperature and Cooling Rate on the Solidification of Undercooled Ti Melt[J]. 金属学报, 2018, 54(6): 844-850. [7] Jinfu LI, Yaohe ZHOU. Remelting of Primary Solid in Rapid Solidification of Deeply Undercooled Alloy Melts[J]. 金属学报, 2018, 54(5): 627-636. [8] Guohua WU, Yushi CHEN, Wenjiang DING. Current Research and Future Prospect on Microstructures Controlling of High Performance Magnesium Alloys During Solidification[J]. 金属学报, 2018, 54(5): 637-646. [9] Bin ZHAI, Kai ZHOU, Peng Lü, Haipeng WANG. Rapid Solidification of Ti-6Al-4V Alloy Micro-Droplets Under Free Fall Condition[J]. 金属学报, 2018, 54(5): 824-830. [10] Zengyun JIAN, Tao XU, Junfeng XU, Man ZHU, Fang'e CHANG. Development of Solid-Liquid Interfacial Energyof Melt-Crystal[J]. 金属学报, 2018, 54(5): 766-772. [11] Jianglei ZHU, Qing WANG, Haipeng WANG. Thermophysical Properties and Atomic Distribution of Undercooled Liquid Cu[J]. 金属学报, 2017, 53(8): 1018-1024. [12] Qianqian GU, Ying RUAN, Haizhe ZHU, Na YAN. Influence of Cooling Rate on Microstructural Formation of Melt-Spun Fe-Al-Nb Ternary Alloy[J]. 金属学报, 2017, 53(6): 641-647. [13] Huogen HUANG,Hongyang XU,Pengguo ZHANG,Yingmin WANG,Haibo KE,Pei ZHANG,Tianwei LIU. U-Cr Binary Alloys with Anomalous Glass-Forming Ability[J]. 金属学报, 2017, 53(2): 233-238. [14] Junhui YAN,Zengyun JIAN,Man ZHU,Fang'e CHANG,Junfeng XU. SOLIDIFICATION CHARACTERISTICS AND MICRO-STRUCTURE OF HIGH UNDERCOOLED Al-70%Si ALLOY[J]. 金属学报, 2016, 52(8): 931-937. [15] Qiliang NAI,Jianxin DONG,Maicang ZHANG,Zhihao YAO. INFLUENCE OF MULTI-MICROSTRUCTURE INTERACTION ON FATIGUE CRACK GROWTH RATE OF GH4738 ALLOY[J]. 金属学报, 2016, 52(2): 151-160. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed