Mössbauer study of alloy Fe67.5Ni32.5, prepared by mechanical alloying

被引:4
作者
Benitez Rodríguez E.D. [1 ]
Bustos Rodríguez H. [1 ]
Oyola Lozano D. [1 ]
Rojas Martínez Y.A. [1 ]
Pérez Alcázar G.A. [2 ]
机构
[1] Department of Physics, University of Tolima, A.A. 546, Ibagué
[2] Department of Physics, University of Valle, A.A. 25360, Cali
来源
Hyperfine Interactions | 2015年 / 232卷 / 1-3期
关键词
FeNi alloys; Mechanical alloying; Mössbauer spectrometry and particle size; X-Ray diffraction;
D O I
10.1007/s10751-015-1138-8
中图分类号
学科分类号
摘要
We present the study of effect of the particle size on the structural and magnetic properties of the Fe67.5Ni32.5 alloy, prepared by mechanical alloying (MA). After milling the powders during 10 hours they were separated by sieving using different meshes. The refinement of the X-ray patterns showed the coexistence of the BCC (Body Centered Cubic) and the FCC (Face Centered Cubic) phases in all samples with lattice parameters and crystallite sizes independent of the mean particle size. However, big particles presented bigger volumetric fraction of BCC grains. The Mossbauer spectra were fitted with a broad sextet corresponding to the ferromagnetic BCC phase, a hyperfine magnetic field distribution and a broad singlet which correspond to the ferromagnetic and paramagnetic sites of the FCC phase, respectively. Hysteresis loops showed a magnetically, soft behavior for all the samples, however, the saturation magnetization values are smaller for the original powder and for the powders with small, mean, particle size due to the dipolar magnetic interaction and the smaller mean magnetic moment, respectively. These effects were proved by Henkel plots that were made to the samples. © 2015, Springer International Publishing Switzerland.
引用
收藏
页码:87 / 95
页数:8
相关论文
共 21 条
  • [1] Scorzelli R.B., A study of phase stability in invar Fe-Ni alloys obtained by non-conventional methods, Hyp. Int., 110, pp. 143-150, (1997)
  • [2] Restrepo J., Perez Alcazar G.A., Bohorquez A., Description in a local model of the magnetic field distribution of Fe1−xNix disordered alloys, J. Appl. Phys., 81, (1997)
  • [3] Baldokhin Y.V., Tcherdyntsev V.V., Kaloshin S.D., Kochetov G.A., Pustov Y.A., Transformations and fine magnetic structure of mechanically alloyed Fe-Ni alloys, J. Magn. Magn. Mater., 203, pp. 313-315, (1999)
  • [4] Lapina T.M., Shabashov V.A., Sagaradze V.V., Arbuzov V.L., The distribution of atoms during radiation-induced martensitic transformations in Fe-Ni alloys, Mater. Sci. Forum, 294-296, pp. 767-770, (1999)
  • [5] Kaloshin S.D., Tcherdyntsev V.V., Tomilin I.A., Baldokhin Y.V., Shelekhov E.V., Phase transformations in Fe-Ni system at mechanical alloying and consequent annealing of elemental powder mixtures, Phys. B, 299, pp. 236-241, (2001)
  • [6] Tcherdyntsev V.V., Kaloshin S.D., Tomilin I.A., Shelekhov E.V., Baldokhin Y.V., Formation of iron-nickel nanocrystalline alloy by mechanical alloying, Nanostruct. Mater., 12, pp. 139-142, (1999)
  • [7] Valderruten J.F., Perez Alcazar G.A., Greneche J.M., Mössbauer and x-ray study of mechanically alloyed Fe-Ni alloys around the Invar composition, J. Phys. Condens. Matter., 20, (2008)
  • [8] Rancourt D.G., Scorzelli R.B., Low-spin γ-Fe-Ni (γLS) proposed as a new mineral in Fe-Ni-bearing meteorites: epitaxial intergrowth of γLS and tetrataenite as a possible equilibrium state at ∼20−40 at % Ni, J. Magn. Magn. Mater., 150, pp. 30-36, (1995)
  • [9] Rancourt D.G., Scorzelli R.B., Low-spin γLS−Fe-Ni proposed as a new meteoritic mineral-reply, J. Magn. Magn. Mater., 174, pp. 324-330, (1997)
  • [10] Rancourt D.G., Dang M.Z., Relation between anomalous magnetovolumen behaviour and magnetic frustration in invar alloys, Phys. Rev. B, 54, (1996)