A THEORETICAL ANALYSIS ON FORMATION OF GRAIN ELONGATION AND ALIGNED TWO-PHASE STRUCTURES INDUCED BY HIGH MAGNETIC FIELD

Acta Metall Sin

2008, Vol. 44

Issue (6): 708-712 DOI:

Research Articles

Current Issue | Archive | Adv Search

A THEORETICAL ANALYSIS ON FORMATION OF GRAIN ELONGATION AND ALIGNED TWO-PHASE STRUCTURES INDUCED BY HIGH MAGNETIC FIELD

Wang Qi-Chao;Zhi-Gang Yang

清华大学材料系

Cite this article:

Wang Qi-Chao; Zhi-Gang Yang. A THEORETICAL ANALYSIS ON FORMATION OF GRAIN ELONGATION AND ALIGNED TWO-PHASE STRUCTURES INDUCED BY HIGH MAGNETIC FIELD. Acta Metall Sin, 2008, 44(6): 708-712 .

Download:

PDF(1363KB)
Export: BibTeX | EndNote (RIS)

Abstract A theoretical analysis has been made on aligned two-phase structures induced by high magnetic field. The influence of nucleation shape to demagnetization is discussed. The calculation results show that nucleation will occur more on the grain boundary along the magnetic field direction compared with that perpendicular to it, further on considering the secondary nucleation around those have formed in the earlier stage

Key words: Pillbox Model High Magnetic Field Proeutectoid Ferrite

Received: 16 October 2007

ZTFLH:

TG142.1

	Service

	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS
	（）
	Articles by authors
	Wang Qi-Chao
	Zhi-Gang Yang

URL:

https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2008/V44/I6/708

[1]Shimisu K,Kakeshita T.ISIJ Int,1989;29:97
[2]Kakeshita T,Shimizu K,Ono M,Date M.J Magn Magn Mater,1990;90-91:34
[3]Kakeshita T.Mater Trans,1992;33:461
[4]Watanabe T,Tsurekawa S,Zhao X,Zuo L.Scr Mater, 2006;54:969
[5]Enomoto M,Guo H,Tazuke Y,Shimotomai M.Metall Mater Trans,2001;32A:445
[6]Ludtka G M,Jaramillo R A,Kisner R A,Nicholson D M, Wilgen J B,Mackiewicz-Ludtka G,Kalu P N.Scr Mater, 2004;51:171
[7]Zhang Y D,Esling C,Lecomte J S,He C S,Zhao X,Zuo L.Acta Mater,2005;53:5213
[8]Zhang Y D,He C S,Zhao X,Zuo L,Esling C,He J C.J Magn Magn Mater,2004;284:287
[9]He C S,Zhang Y D,Zhao X,Zuo L,He J C,Watanabe K, Zhang T,Nishijima G,Esling C.Adv Eng Mater,2003;5: 579
[10]Yang G,Feng G H.J Steel Iron Res,2000;12(3):31 (杨钢，冯光宏．钢铁研究学报，2000；12(3)：31)
[11]Feng G H,Zhou S X,Yang G,Lu Z C.J Iron Steel Res, 2000;12(4):27 (冯光宏，周少雄，杨钢，卢志超．钢铁研究学报，2000；12(4)：27)
[12]Joo H D,Kim S U,Shin N S,Koo Y M.Mater Lett,2000; 43:225
[13]Ohtsuka H.Curt Opin Solid State Mater Sci,2004;8:279
[14]Shimotomai M,Maruta K.Scr Mater,2000;42:499
[15]Zhang Y D,Esling C,Muller J,He C S,Zhao X,Zuo L. Appl Phys Left,2005;87:212504
[16]Shimotomai M,Maruta K,Mine K,Matsui M.Acta Mater, 2003;51:2921
[17]Cahn J W.Acta Metall,1956;4:449
[18]Wang Q C,Yang Z G,Li Z D.Acta Metall Sin,2007;43: 344 (王启超，杨志刚，李昭东．金属学报，2007；43：344)
[19]Enomoto M,Lange W F,Aaronson H I.Metall Trans, 1986;17A:1399
[20]Enomoto M,Aaronson H I.Metall Trans,1986;17A:1385
[21]Choi J K,Ohtsuka H,Xu Y,Choo W Y.Scr Mater,2000; 43:221

[1]	Qiang WANG, Meng DONG, Jinmei SUN, Tie LIU, Yi YUAN. Control of Solidification Process and Fabrication of Functional Materials with High Magnetic Fields[J]. 金属学报, 2018, 54(5): 742-756.
[2]	Jianbo YU, Yuan HOU, Chao ZHANG, Zhibin YANG, Jiang WANG, Zhongming REN. Effect of High Magnetic Field on the Microstructure in Directionally Solidified Co-Al-W Alloy[J]. 金属学报, 2017, 53(12): 1620-1626.
[3]	Hua ZHONG,Chuanjun LI,Jiang WANG,Zhongming REN,Yunbo ZHONG,Weidong XUAN. EFFECT OF A HIGH STATIC MAGNETIC FIELD ON MICROSEGREGATION OF DIRECTIONALLY SOLIDIFIED Al-4.5Cu ALLOY[J]. 金属学报, 2016, 52(5): 575-582.
[4]	Jiaojiao DU,Guojian LI,Qiang WANG,Yonghui MA,Huimin WANG,Mengmeng LI. GROWTH MODE EVOLUTION AND SUBSEQUENT MAGNETIC PROPERTIES OF Fe FILMS WITH DIFFERENT GRAIN SIZES UNDER A HIGH MAGNETIC FIELD[J]. 金属学报, 2015, 51(7): 799-806.
[5]	ZHONG Hua, REN Zhongming, LI Chuanjun, ZHONG Yunbo, XUAN Weidong, WANG Qiuliang. TEXTURE FORMATION AND GRAIN BOUNDARY CHARACTERISTIC OF Al-4.5Cu ALLOYS DIRECTIONALLY SOLIDIFIED UNDER HIGH MAGNETIC FIELD[J]. 金属学报, 2015, 51(4): 473-482.
[6]	Lei WANG,Di TANG,Yong SONG. AUSTENITE TRANSFORMING IN CONTINUOUS COOLING PROCESS UNDER DIFFUSION CONTROL MODEL[J]. 金属学报, 2015, 51(11): 1341-1348.
[7]	LI Guojian, WANG Zhen, WANG Qiang, WANG Huimin, DU Jiaojiao, MA Yonghui, HE Jicheng. EFFECT OF OXIDATION TIME UNDER HIGH MAG- NETIC FIELD ON THE MICROSTRUCTURE AND OPTICAL PROPERTIES OF OXIDIZED Co-DOPED ZnO FILMS[J]. 金属学报, 2014, 50(12): 1538-1542.
[8]	LIU Yin, LIU Tie, WANG Qiang, WANG Huimin, WANG Li, HE Jicheng. EFFECT OF HIGH MAGNETIC FIELD ON CRYSTAL ORIENTATION, MORPHOLOGY AND MAGNETOSTRICTION OF TbFe₂ AND Tb_0.27Dy_0.73Fe_1.95 ALLOYS DURING HEAT TREATMENT PROCESS[J]. 金属学报, 2013, 49(9): 1148-1152.
[9]	XIA Zhixin ZHANG Chi YANG Zhigang. EFFECT OF HIGH MAGNETIC FIELD ON PRECIPITATION BEHAVIORS AND MECHANICAL PROPERTIES IN REDUCED ACTIVATION STEELS[J]. 金属学报, 2011, 47(6): 713-719.
[10]	LI Guimao WANG Engang ZHANG Lin ZUO Xiaowei HE Jicheng. EFFECTS OF HIGH MAGNETIC FIELD ON THE PRECIPITATE AND PROPERTY OF Cu-25%Ag ALLOY[J]. 金属学报, 2010, 46(9): 1128-1132.
[11]	ZHANG Lin WANG Engang ZUO Xiaowei HE Jicheng. EFFECT OF HIGH MAGNETIC FIELD ON THE TRANSITION BEHAVIOR OF Cu–RICH PARTICLES IN Cu–80%Pb HYPERMONOTECTIC ALLOY[J]. 金属学报, 2010, 46(4): 423-428.
[12]	ZHENG Bin ZHOU Wei WANG Yinong QI Min. MARTENSITE TRANSFORMATION IN TiNi ALLOY UNDER COUPLING TEMPERATURE AND HIGH MAGNETIC FIELD USING LANDAU THEORY MODEL[J]. 金属学报, 2009, 45(1): 37-42.
[13]	GONG Ming-Long; Xiang Zhao; Shoujing WANG; liang zuo. EFFECT OF MAGNETIC FIELD STRENGTH ON MICROSTRUCTURE OF PROEUTECTOID FERRITE IN FE-0.76%C ALLOY[J]. 金属学报, 2008, 44(5): 615-618 .
[14]	YU Jian-Bo. Effect of electromagnetic vibration on the structure in solidified Al-4.5％Cu alloy under a strong magnetic field[J]. 金属学报, 2008, 44(2): 172-176 .
[15]	Lin Zhang; Xiaowei Zuo; Jicheng He. Formation of Cu-rich Sphere Phase in Cu-80wt%Pb Hypermonotectic Alloys and the Effect of High Magnetic Field[J]. 金属学报, 2008, 44(2): 165-171 .

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed