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Magnetic-field-induced strains in polycrystalline Mn1-xCux(0.1≤x≤0.3) alloys

Peng Wen-Yi Qin Jin Zhang Ai-Sheng Yan Ming-Ming

Magnetic-field-induced strains in polycrystalline Mn1-xCux(0.1≤x≤0.3) alloys

Peng Wen-Yi, Qin Jin, Zhang Ai-Sheng, Yan Ming-Ming
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  • Magnetic-field-induced strain(MFISs) in polycrystalline Mn1-xCux(0.1≤x≤0.3, atomic fraction) alloys are studied by means of X-ray, photomicrograph, DSC, resistance strain gauge method at room temperature. The results show that Mn1-xCux alloys consist of fcc (γ) and fct (γ’) phases after a long period of homogenization because of fcc(γ)→fct(γ’) martensitic transformation in the cooling process. The volume proportion of γ’ phase increases with the increase of Mn content, so that the samples possess much better MFIS performance. At room temperature, the MFIS in Mn0.9Cu0.1 sample reaches 91 ppm in 0.9 T magnetic field.
    • Funds:
    [1]

    Pons J, Cesari E, Seguí C, Masdeu F, Santamarta R 2008 Mater. Sci. Eng. A 481-482 57

    [2]

    Xu G L, Chen J D, Chen D, Ma J Z, Yu B H, Si D H 2009 Chin. Phys. B 18 744

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    Fukuda T, Sakamoto T, Kakeshita T, Takeuchi T, Kishio K 2004 Mater. Trans. 45 188

    [4]

    Dai X F, Liu H Y, Yan L Q, Qu J P, Li Y X, Chen J L, Wu G H 2006 Acta Phys. Sin. 55 2534(in Chinese)[代学芳、刘何燕、闫丽琴、曲静萍、李养贤、陈京兰、吴光恒 2006物理学报 55 2534]

    [5]

    Ma Y B 2009 Acta Phys. Sin. 58 4976(in chinese)[马玉彬 2009 物理学报 58 4976]

    [6]

    Lavrov A N, Komiya S, Ando Y 2002 Nature (London) 418 385

    [7]

    Mahendiran R, Ibarra M R, Marquina C, Garcia-Landa B, Morellon L, Maignan A, Raveau B, Arulraj A, Rao C N 2003 Appl. Phys. Lett. 82 242

    [8]

    Peng W Y, Zhang J H 2006 Appl. Phys. Lett. 89 262501

    [9]

    Worrell F T 1948 J. Appl. Phys. 19 929

    [10]

    Zhong Y, Sakaguchi T, Yin F X 2008 Mater. Sci. Eng. A 482 419

    [11]

    Siefert A V, Worrell F T 1951 J. Appl. Phys. 22 1257

    [12]

    Zhang J H, Peng W Y, Lu P, Hsu T Y 2004 Phys. Stat. Sol. C 1 1772

    [13]

    Yin F X, Ohsawa Y, Sato A, Kawahara K 2000 Acta Mater. 48 1273

    [14]

    Bacon G E, Dunmur I W, Smith J H, Street R 1957 Proc. Roy. Soc. A 241 223

    [15]

    Shimizu K, Okumura Y, Kubo H 1982 Transactions of the Japn Institute of Metals 23 53

    [16]

    Wang C P, Liu X J, Ohnuma I, Kainuma R, Ishida K 2007 J. Alloys Compd. 438 129

    [17]

    Liu Z H, Wu G H, Wang W H, Chen J L, Ao L, Jin Z X 2002 Acta Phys. Sin. 51 640(in Chinese)[柳祝红、吴光恒、王文洪、陈京兰、敖 玲、金重勋 2002 物理学报 51 640]

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    Li J J, Zhao W R, Zhang Y H, Wang X L, Zhang J F, Guo S H 2003 Acta Phys. Sin. 52 2849(in Chinese)[李健靓、赵韦人、张羊换、王新林、张建福、郭世海 2003 物理学报 52 2849]

    [19]

    Markova G V 2004 Mater. Sci. Eng. A 370 473

    [20]

    O’Handley R C 1998 J. Appl. Phys. 83 3263

  • [1]

    Pons J, Cesari E, Seguí C, Masdeu F, Santamarta R 2008 Mater. Sci. Eng. A 481-482 57

    [2]

    Xu G L, Chen J D, Chen D, Ma J Z, Yu B H, Si D H 2009 Chin. Phys. B 18 744

    [3]

    Fukuda T, Sakamoto T, Kakeshita T, Takeuchi T, Kishio K 2004 Mater. Trans. 45 188

    [4]

    Dai X F, Liu H Y, Yan L Q, Qu J P, Li Y X, Chen J L, Wu G H 2006 Acta Phys. Sin. 55 2534(in Chinese)[代学芳、刘何燕、闫丽琴、曲静萍、李养贤、陈京兰、吴光恒 2006物理学报 55 2534]

    [5]

    Ma Y B 2009 Acta Phys. Sin. 58 4976(in chinese)[马玉彬 2009 物理学报 58 4976]

    [6]

    Lavrov A N, Komiya S, Ando Y 2002 Nature (London) 418 385

    [7]

    Mahendiran R, Ibarra M R, Marquina C, Garcia-Landa B, Morellon L, Maignan A, Raveau B, Arulraj A, Rao C N 2003 Appl. Phys. Lett. 82 242

    [8]

    Peng W Y, Zhang J H 2006 Appl. Phys. Lett. 89 262501

    [9]

    Worrell F T 1948 J. Appl. Phys. 19 929

    [10]

    Zhong Y, Sakaguchi T, Yin F X 2008 Mater. Sci. Eng. A 482 419

    [11]

    Siefert A V, Worrell F T 1951 J. Appl. Phys. 22 1257

    [12]

    Zhang J H, Peng W Y, Lu P, Hsu T Y 2004 Phys. Stat. Sol. C 1 1772

    [13]

    Yin F X, Ohsawa Y, Sato A, Kawahara K 2000 Acta Mater. 48 1273

    [14]

    Bacon G E, Dunmur I W, Smith J H, Street R 1957 Proc. Roy. Soc. A 241 223

    [15]

    Shimizu K, Okumura Y, Kubo H 1982 Transactions of the Japn Institute of Metals 23 53

    [16]

    Wang C P, Liu X J, Ohnuma I, Kainuma R, Ishida K 2007 J. Alloys Compd. 438 129

    [17]

    Liu Z H, Wu G H, Wang W H, Chen J L, Ao L, Jin Z X 2002 Acta Phys. Sin. 51 640(in Chinese)[柳祝红、吴光恒、王文洪、陈京兰、敖 玲、金重勋 2002 物理学报 51 640]

    [18]

    Li J J, Zhao W R, Zhang Y H, Wang X L, Zhang J F, Guo S H 2003 Acta Phys. Sin. 52 2849(in Chinese)[李健靓、赵韦人、张羊换、王新林、张建福、郭世海 2003 物理学报 52 2849]

    [19]

    Markova G V 2004 Mater. Sci. Eng. A 370 473

    [20]

    O’Handley R C 1998 J. Appl. Phys. 83 3263

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  • Received Date:  21 November 2009
  • Accepted Date:  05 March 2010
  • Published Online:  15 November 2010

Magnetic-field-induced strains in polycrystalline Mn1-xCux(0.1≤x≤0.3) alloys

  • 1. School of Materials Science and Engineering, Nanchang University, Nanchang 330031,China

Abstract: Magnetic-field-induced strain(MFISs) in polycrystalline Mn1-xCux(0.1≤x≤0.3, atomic fraction) alloys are studied by means of X-ray, photomicrograph, DSC, resistance strain gauge method at room temperature. The results show that Mn1-xCux alloys consist of fcc (γ) and fct (γ’) phases after a long period of homogenization because of fcc(γ)→fct(γ’) martensitic transformation in the cooling process. The volume proportion of γ’ phase increases with the increase of Mn content, so that the samples possess much better MFIS performance. At room temperature, the MFIS in Mn0.9Cu0.1 sample reaches 91 ppm in 0.9 T magnetic field.

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