Experimental investigation of ultrasonic velocity anisotropy in magnetic fluids: Influence of grain–grain interaction

KRUTI SHAH; R V UPADHYAY

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Experimental investigation of ultrasonic velocity anisotropy in magnetic fluids: Influence of grain–grain interaction

机译：磁流体中超声速度各向异性的实验研究：晶粒与晶粒间相互作用的影响

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Magnetic field-induced dispersion of ultrasonic velocity in a Mn0.7Zn0.3Fe2O4 fluid (applied magnetic field is perpendicular to the ultrasonic propagation vector) is determined by employing continuous wave method. The magnitude of dispersion initially decreases with increasing field, then increases and reaches a plateau at higher fields. Results indicate that the velocity anisotropy is dominated by grain–grain interactions rather than grain–field interaction. At the critical temperature, the grain–grain interaction becomes weak as the transverse component of the particle/cluster moment is larger than the longitudinal one and the system reaches saturation even at low field. These observed variations in the field-induced anisotropy are analysed by incorporating the moment distribution of particles in Tarapov’s theory (J. Magn. Magn. Mater. 39, 51 (1983)).

机译：确定磁场在Mn0.7 Zn0.3 Fe2 O4 流体（施加磁场垂直于超声传播矢量）中的超声速度分散。采用连续波法。色散的大小最初随电场的增加而减小，然后增加，并在较高的电场处达到平稳状态。结果表明，速度各向异性是由晶粒-晶粒相互作用而不是晶粒-场相互作用主导的。在临界温度下，当颗粒/团簇力矩的横向分量大于纵向分量时，晶粒与晶粒之间的相互作用变弱，即使在低场下，系统也达到饱和。通过将粒子的矩分布纳入塔拉波夫的理论中来分析这些观测到的场致各向异性变化（J. Magn。Magn。Mater。39，51（1983））。

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《Pramana 》 |2011年第2期| p.345-355| 共11页
作者
KRUTI SHAH; R V UPADHYAY;
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作者单位

P.D. Patel Institute of Applied Sciences and K.C. Patel R &amp D Center, Charotar University of Science &amp Technology, Education Campus, Changa, 388 421, India;

P.D. Patel Institute of Applied Sciences and K.C. Patel R &amp D Center, Charotar University of Science &amp Technology, Education Campus, Changa, 388 421, India;

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正文语种 eng
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Magnetic fluids; ultrasonic wave; sound velocity; anisotropy; 47.65.Cb; 47.35.Rs; 47.57.J-; 62.60.+v;

机译：磁性流体;超声波;声速;各向异性;47.65.Cb;47.35.Rs;47.57.J-;62.60。+ v;

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1. Experimental investigation of ultrasonic velocity anisotropy in magnetic ???uids: In???uence of graina€“grain interaction [J] . Kruti Shah, R V Upadhyay1 Pramana . 2011 ,第2期

机译：磁性流体中超声波速度各向异性的实验研究：晶粒间相互作用的影响
2. Grain Size Dependence of Exchange-Coupling Interaction between Magnetically Soft-Hard Grains and Effective Anisotropy [J] . Han Guangbing, Gao Ruwei, Fu Shuang Journal of rare earths . 2004 ,第6期

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3. Grain Size Dependence of Exchange-Coupling Interaction between Magnetically Soft-Hard Grains and Effective Anisotropy [J] . Han Guangbing, Gao Ruwei, Fu Shuang Journal of rare earths . 2004 ,第6期

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4. Grain Size Dependence of Exchange-Coupling Interaction between Magnetically Soft-Hard Grains and Effective Anisotropy [C] . International Conference on Rare Earth Research and Application; 2004; . 2004

机译：磁性软硬颗粒之间的交换耦合相互作用与有效各向异性的晶粒尺寸依赖性
5. Modeling Grain Boundary Anisotropy-Driven Microstructural Evolution wth Arbitrary Grain Orientation and Adaptive Mesh Refinement [D] . Gras Ribot, Josep Maria 2018

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6. Influence of Nb Content on Precipitation Grain Microstructure Texture and Magnetic Properties of Grain-Oriented Silicon Steel [O] . Yong Wang, Chengyi Zhu, Guangqiang Li, 2020

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7. Fluidity, anisotropy, and velocity correlations in frictionless, collisional grain flows [O] . Diego Berzi, James T. Jenkins 2018

机译：无摩擦，碰撞晶粒流的流动性，各向异性和速度相关性
8. Investigations of ultrasonic wave interactions with grain boundaries and grain imperfections. Progress report [R] . 1990

机译：研究超声波与晶界和晶粒缺陷的相互作用。进度报告

Experimental investigation of ultrasonic velocity anisotropy in magnetic fluids: Influence of grain–grain interaction

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