稳恒强磁场在固态相变中应用的研究进展

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材料工程 ›› 2009, Vol. 0 ›› Issue (3) : 82-86.

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综述

稳恒强磁场在固态相变中应用的研究进展

任晓^1,2, 周文龙^1,2, 陈国清², 吴承伟¹, 黄朝晖³, 张俊善²

作者信息 +

Research and Development of Homogeneous High Magnetic Field Applied in Solid Phase Transformation

REN Xiao^1,2, ZHOU Wen-long^1,2, CHEN Guo-qing², WU Cheng-wei¹, HUANG Zhao-hui³, ZHANG Jun-shan²

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文章历史 +

摘要

稳恒强磁场作用下的固态相变受到了广泛的关注,已成为材料科学中重要的研究领域。本文从固态相变中相稳定性、生成相形貌和晶粒细化方面介绍了稳恒强磁场的影响规律和作用机制。阐述了通过施加稳恒强磁场控制材料微观组织,从而实现改变材料的性能。稳恒强磁场将成为材料制备与改性极具潜力的手段,在开发高性能材料方面发挥巨大作用。

Abstract

Solid phase transformation under the application of homogeneous high magnetic field has attracted much attention and becomes an potential research field of material science. The effect and acting mechanism of high magnetic field on solid phase transformation were summarized concerning phase stability and morphology as well as grain refinement. The microstructure and properties of materials could be controlled by applying high magnetic field, which becomes a powerful facility available for materials preparation and modification. It has a huge potential for developing high performance materials by high magnetic field.

导出引用

任晓, 周文龙, 陈国清, 吴承伟, 黄朝晖, 张俊善. 稳恒强磁场在固态相变中应用的研究进展[J]. 材料工程, 2009, 0(3): 82-86

REN Xiao, ZHOU Wen-long, CHEN Guo-qing, WU Cheng-wei, HUANG Zhao-hui, ZHANG Jun-shan. Research and Development of Homogeneous High Magnetic Field Applied in Solid Phase Transformation[J]. Journal of Materials Engineering, 2009, 0(3): 82-86

中图分类号： TG111.5

参考文献

[1] WATANABE T,TSUREKAWA S,ZHAO X,et al.A new challenge:grain boundary engineering for advanced materials by magnetic field application[J].J Mater Sci,2006,41:7747-7759.
[2] SHIMOTOMAI M,MARUTA K.Aligned two-phase structures in Fe-C alloys[J].Scripta Mater,2000,42:499-503.
[3] OHTSUKA H.Effect of strong magnetic field on bainitic transformation[J].Current Opinion in Solid State and Materials Science,2004,8:279-284.
[4] JARAMILLO R A,BABU S S,LUDTKA G M,et al.Effect of 30T magnetic field on transformations in a novel bainitic steel[J].Scripta Mater,2005,52:461-466.
[5] BHAUMIK S,MOLODOVA X,MOLODOV D A,et al.Magnetically enhanced recrystallization in an aluminum alloy[J].Scripta Mater,2006,5:995-998
[6] LI S Q,SASSA K,ASAI S.Textured crystal growth of Si₃N₄ ceramics in high magnetic field[J].Mater Lett,2005,59:153-157.
[7] UCHIKOSHI T,SUZUKI T S,SAKKA Y.Crystalline orientation of alumina ceramics prepared by electrophoretic deposition under a high magnetic field[J].J Mater Sci,2006,41:8074-8078.
[8] POL V G,POL S V,JOSE M,et al.The dependence of the oriented growth of carbon filaments on the intensity of a magnetic field[J].Carbon,2006,44:1913-1918.
[9] MAHFUZ H,ZAINUDDIN S,PARKER M R.Enhancement of strength and stiffness of epoxy-based composites using nanoparticle infusion and high magnetic fields[J].Mater Lett,2007,61:2535-2539.
[10] MA G J,WU C W,ZHOU W L,et al.Initial study of strengthening of NiAl-Cr(Mo)-Hf alloys by strong magnetic field[J].J Mater Res,2005,20(2):295-298.
[11] MA Y W,XU A X,LI X H,et al.Improved properities of epitaxial YNixMn1-xO3 films by annealing under high magnetic fields[J].Appl Phys Lett,2006,89:152505(1)-152505(3).
[12] ZHANG Y D,GEY N,HE C S,et al.High temperature tempering behaviors in a structural steel under high magnetic field[J].Acta Mater,2004,52:3467-3474.
[13] KOCH C C.Experimental evidence for magnetic or electric field effects on phase transformations[J].Mater Sci Eng A,2000,287:213-218.
[14] 王西宁,陈铮,刘兵.磁场对材料固态相变影响的研究进展[J].材料导报,2000,16(2):25-27.
[15] CHIO J K,OHTSUKA H,XU Y,et al.Effects of a strong magnetic field on the phase stability of plain carbon steels[J].Scripta Mater,2000,43:221-226.
[16] JOO H D,CHIO J K,KIM S U,et al.An effect of a strong magnetic field on the phase transformation in plain carbon steels[J].Met Mater Trans A,2004,35:1663-1670.
[17] JOO H D,KIM S U,SHIN N S,et al.An effect of high magnetic field on phase transformation in Fe-C system[J].Mater Lett,2000,43:225-229.
[18] ZHANG Y D,ESLING C,LECOMTE J S,et al.Grain boundary characteristics and texture formation in a medium carbon steel during its austenitic decomposition in a high magnetic field[J].Acta Mater,2005,53:5213-5221.
[19] MIYAUCHI H,FUKUDA T,KAKESHITA T.Current Advances in Materials and Processes,The 148th ISJJ Meeting:Effect of magnetic field on γ-α equilibrium temperature of pure Fe[C].Akita:The Iron and Steel Institute of Japan,2004.
[20] LUDTKA G M,JARAMILLO R A,KISNER R A,et al.In situ evidence of Enhanced transformation kinetics in a medium carbon steel due to a high magnetic field[J].Scripta Mater,2004,51:171-174.
[21] 齐民,王岩,王轶农,等.强磁场对Fe₆₅Co₁₀Nd₈B₁₇非晶薄带晶化行为的影响[J].功能材料,2005,36 (1):35-37.
[22] DORFMAN S,FUKS D,GORDON A,et al.Phase growth of smart materials in a magnetic field[J].J Mater Sci Lett,1996,5:2023-2025.
[23] KUWAHARA H,TOMIOKA Y,ASAMITSU A.A first-order phase transition induced by a magnetic field[J].Science,1995,270(5238):961-963.
[24] MARUTA K,SHIMOTOMAI M.Special issue on effect of magnetic field on phase transformations and essential physical properties of materials[J].Mater Trans JIM,2000,1(8):902-906.
[25] SHIMOTOMAI M,MARUTA K,MINE K,et al.Formation of aligned two-phase microstructures by applying a magnetic field during the austenite to ferrite transformation in steels[J].Acta Mater,2003,1:2921-2932.
[26] ZHANG Y,HE C S,ZHAO X,et al.New microstructural features occurring during transformation from austenite to ferrite under the kinetic influence of magnetic field in a medium carbon steel[J].J Mag Mag Mater,2004,284:287-293.
[27] WATANABE T,OBARA K,TSUREKAWA S,et al.A mechanism of plane matching boundary-assisted α/γ phase transformation in Fe-Cr alloy based on in-situ observations[J].Z Metallkde,2005,96:1196-1203.
[28] HAO X J,OHTSUKA H,WADA H.Structural elongation and alignment in a Fe-0.4C alloy by isothermal ferrite transformation in high magnetic fields[J].Mater Trans,2003,44(12):2532-2536.
[29] MOLODOV D A,SHEIKH-ALI A D.Effect of magnetic field on texture evolution in titanium[J].Acta Mater,2004,52:4377-4383.
[30] MOLODOV D A,BOLLMANN C,GOTTSTEIN G.Impact of a magnetic field on the annealing behavior of cold rolled titanium[J].Mater Sci Eng A,2007,467:71-77.
[31] MOLODOV D A,KONIJNENBERG P J,BOZZOLO N,et al.Magnetically affected texture and grain structure development in titanium[J].Mater Lett,2005,59:3209-3213.
[32] SHEIKH-ALI A D,MOLODOV D A,GARMESTANI H.Magnetically induced texture development in zinc alloy sheet[J].Scripta Mater,2002,46:857-862.
[33] MOLODOV D A,BHAUMIK S,MOLODOVA X,et al.Annealing behaviour cold rolled aluminum alloy in a high magnetic field[J].Scripta Mater,2006,54:2161-2164.
[34] BACALUCHUK C M B,CASTELLO-BRANCO G A,EBRAHIMI M,et al.Effect of magnetic field applied during secondary annealing on texture and grain size of silicon steel[J].Scripta Mater,2003,48:1343-1347.
[35] LI D S,GARMESTANI H,YAN S S,et al.Effects of high magnetic field annealing on texture properties of FePd[J].J Mag Mag Mater,2004,281:272-275.
[36] MOLODOV D A,GOTTSTEIN G,HERINGHAUS F.Motion of planar grain boundaries in bismuth-bicrystals driven by a magnetic field[J].Scripta Mater,1997,37(8):1207-1213.
[37] 冯光宏,周少雄,杨钢,等.稳恒磁场对低碳锰铌钢晶粒细化的影响[J].钢铁研究学报,2000,12(4):27-30.