Ostwald ripening of rod-shaped α-Fe particles in a Cu matrix

机译：奥斯特瓦尔德在Cu基质中成熟的棒状α-Fe颗粒

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The coarsening behavior of rod-shaped α-Fe particles in Cu–1.0 wt.% Fe and Cu–1.0 wt.% Fe–1.2 wt.% Sb alloys during aging at 700 °C has been studied by transmission electron microscopy and electric resistivity. The kinetics of the decay of supersaturation with aging time t for both alloys coincide with the t−1/3 law. The coarsening kinetics of the cylindrical radius of the Fe particles obey the t1/3 law. Using the Lifshitz–Slyozov–Wagner theory modified for the case of rod-shaped particles by Speich and Oriani, the maximum value of the Cu/α-Fe interfacial energy γ and the volume diffusivity D of Fe in Cu for the Cu−Fe alloy are independently derived to be 1.3 J/m2 and 3.9×10−16 m2/s. Adding Sb to the Cu−Fe alloy decreases the values of γ and D.

机译：通过透射电子显微镜和电阻率研究了在Cu–1.0 wt。％Fe和Cu–1.0 wt。％Fe–1.2 wt。％Sb合金中棒状α-Fe颗粒在700°C时效时的粗化行为。。两种合金的过饱和度随老化时间t的衰减动力学与t-1 / 3定律一致。 Fe颗粒的圆柱半径的粗化动力学符合t1 / 3定律。使用由Speich和Oriani修改的杆状粒子的Lifshitz–Slyozov–Wagner理论，Cu-Fe合金的Cu /α-Fe界面能γ的最大值和Fe在Cu中的体积扩散率D分别得出1.3 J / m2和3.9×10-16 m2 / s。将Sb添加到Cu-Fe合金中会降低γ和D的值。

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Tada, T.; Seo, T.; Higashimine, K.; Monzen, Ryoichi;
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年度 2004
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1. Ostwald ripening of rod-shaped α-Fe particles in a Cu matrix [J] . R. Monzen, T. Tada, T. Seo, Materials Letters . 2004,第14期

机译：Cu基棒状α-Fe颗粒的Ostwald熟化
2. Reverse Ostwald ripening process induced dispersion of Cu2O nanoparticles in silver-matrix and their interfacial mechanism mediated sunlight driven photocatalytic properties [J] . Sakar M., Balakumar S. Journal of Photochemistry and Photobiology, A. Chemistry . 2018,第期

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3. Ostwald ripening of spherical Fe particles in Cu-Fe alloys [J] . R. Monzen, K. Kita Philosophical Magazine Letters . 2002,第7期

机译：Cu-Fe合金中球形Fe颗粒的Ostwald熟化
4. Crystal-growth kinetics of magnetite (Fe3O4) nanoparticles with Ostwald Ripening Model approach [C] . S P Utami, A Fadli, E O Sari International Conference on Oleo and Petrochemical Engineering . 2018

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5. Noble metal nanoparticles: Optical forces, electrochemical Ostwald ripening, and photovoltage. [D] . Redmond, Peter. 2007

机译：贵金属纳米粒子：光学力，电化学奥斯特瓦尔德成熟度和光电压。
6. Dynamic imaging of Ostwald ripening in copper oxide nanoparticles by atomic resolution transmission Electron microscope [O] . Na Yeon Kim 2019

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7. Atomistic Theory of Ostwald Ripening and Disintegration of Supported Metal Particles under Reaction Conditions [O] . Ouyang Runhai, Liu Jin-Xun, Li Wei-Xue 2013

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8. Ostwald Ripening and Its Effect on PuO2 Particle Size in Hanford Tank Waste [R] . Delegard, C. H. 2011

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Ostwald ripening of rod-shaped α-Fe particles in a Cu matrix

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