Growth Kinetics of Nd2Fe14B Phase during Hydrogen-Induced Reverse Phase Transformation in Nd2Fe14B Type Nanocrystalline Magnetic Alloy

Sergey Borisovich Rybalka

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Growth Kinetics of Nd2Fe14B Phase during Hydrogen-Induced Reverse Phase Transformation in Nd2Fe14B Type Nanocrystalline Magnetic Alloy

机译：Nd2Fe14B型纳米晶磁性合金中氢诱导的反相转变过程中Nd2Fe14B相的生长动力学

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The influence of hydrogen pressure on kinetics of growth of Nd2Fe14B phase during hydrogen-induced reverse phase transformations in the industrial Nd2Fe14B hard magnetic alloy has been studied. It has been determined that, as the temperature and the initial hydrogen pressure increase, a reverse phase transformation significantly accelerates. It has been shown that the kinetics of the reverse phase transformation is controlled by the Fe atoms diffusion and that the rate growth of new Nd2Fe14B phase increase with increase of initial hydrogen pressure. On the base of the Kolmogorov kinetic theory the kinetic equation describing influence of initial hydrogen pressure on the isothermal kinetic diagram for this transformation has been obtained.

机译：研究了氢压力对工业化Nd2Fe14B硬磁合金中氢诱导的反相转变过程中Nd2Fe14B相生长动力学的影响。已经确定，随着温度和初始氢压力的增加，反相转变显着加速。已经表明，逆相转变的动力学受Fe原子扩散的控制，并且随着初始氢压的增加，新的Nd2Fe14B相的速率增长增加。根据Kolmogorov动力学理论，获得了描述初始氢压对等温动力学图影响的动力学方程。

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《Materials Sciences and Applications》 |2011年第8期|共7页
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Sergey Borisovich Rybalka;
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1. Effect of hydrogen pressure on growth kinetics of Nd2Fe14B phase during hydrogen-induced reverse phase transformation in Nd2Fe14B type hard magnetic alloy [J] . S.B. Rybalka Letters on Materials . 2011,第2期

机译：氢压对Nd2Fe14B型硬磁合金氢诱导的相变过程中Nd2Fe14B相生长动力学的影响
2. Nanocrystalline microstructure formation during hydrogen-induced phase transformations in Nd2Fe14B hard magnetic alloy [J] . S.B. Rybalka Letters on Materials . 2012,第1期

机译：Nd2Fe14B硬磁合金中氢诱导相变过程中的纳米晶体微观结构形成
3. Kinetics of hydrogen-induced forward and reverse diffusional phase transformations in an R2Fe14B magnetic alloy [J] . V. A. Goltsov, S. B. Rybalka Физика металлов и металловедение . 1999,第6期

机译：R2Fe14B磁性合金中氢诱导的正向和反向扩散相变的动力学
4. Phase transformations and magnetic structure of nanocrystalline Fe-Pd and Co-Pt alloys studied by in situ neutron powder diffraction [C] . Julia Lyubina, Oliver Gutfleisch, Olivier Isnard Annual Conference on Magnetism and Magnetic Materials . 2009

机译：用原位中子粉衍射研究纳米晶Fe-Pd和Co-Pt合金的相变和磁性结构
5. Molecular beam epitaxial growth and phase transformation behaviors of Heusler-type single crystal ferromagnetic shape memory thin films. [D] . Shih, Chung-Ping. 2005

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6. Crystalline orientation control of the platelet Nd2Fe14B phase to produce magnetic anisotropy via electromagnetic vibration processing [O] . Mingjun Li, Takuya Tamura -1

机译：血小板Nd2Fe14B相的晶体取向控制通过电磁振动处理产生磁各向异性
7. Effect of hydrogen pressure on growth kinetics of Nd2Fe14B phase during hydrogen-induced reverse phase transformation in Nd2Fe14B type hard magnetic alloy [O] . S. B. Rybalka 2011

机译：氢气压力对Nd2Fe14b相期间Nd2Fe14b型硬磁性合金中Nd2Fe14b相生长动力学的影响

Growth Kinetics of Nd2Fe14B Phase during Hydrogen-Induced Reverse Phase Transformation in Nd2Fe14B Type Nanocrystalline Magnetic Alloy

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