Journal ArticleDOI
Determination of Diffusion Coefficients
B. Serin,R. T. Ellickson +1 more
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TLDR
In this article, the diffusion equations derived from Fick's law were applied to experimental data in the literature on the diffusion of oxygen in copper and on reaction rates for chemical reactions in the solid phase.Abstract:
Diffusion equations derived from Fick's law are discussed and applied to experimental data in the literature on the diffusion of oxygen in copper and on reaction rates for chemical reactions in the solid phase. Previous limitations on the applicability of the formulae are removed by the use of a simple graphical method so that the theory can be applied to data to which it was previously inapplicable. It is pointed out that the exact solution to Fick's law obtained is equivalent to the parabolic law in the early stages of the diffusion process. The activation energy for the diffusion of oxygen in copper is found to be 50.5 kcal. per g‐atom.read more
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Book ChapterDOI
Diffusion Processes and Kinetics of Reactions in the Solid State
TL;DR: In the well-known book of P. P. Budnikov and A. M. Ginstling, Reactions in Mixtures of Solids (1961), much space is devoted to the description of the mechanism and kinetics of reactions in systems of solids where original views are developed largely on the basis of their own experimental data as discussed by the authors.
Journal ArticleDOI
A novel strategy for the fabrication of high-performance nanostructured Ce-Fe-B magnetic materials via electron-beam exposure
Liang Zha,Cholsong Kim,Chao Yun,Dong Zhou,Wei Li,Xiangdong Kong,Li Han,Wenyun Yang,Shunquan Liu,Jingzhi Han,Changsheng Wang,Honglin Du,Weixing Xia,Alberto Bollero,Jinbo Yang +14 more
TL;DR: In this article, a novel strategy combining melt-spinning and electron-beam exposure (EBE) aiming for fabricating high-performance Ce-Fe-B magnetic materials is reported to solve the above-mentioned problem.
Book ChapterDOI
Kinetics and Mechanism of the Reaction Between TiO2 and SrCO3
S. F. Hulbert,M. J. Popowicht +1 more
TL;DR: In this paper, the Ginstling-Brounshtein equation was used to describe the reaction between strontium carbonate and stoichiometric anatase, rutile, and nonstoichiometric rutiles.
Book ChapterDOI
Der Mechanismus der Bildung von Ionenverbindungen höherer Ordnung durch Reaktion im festen Zustand
TL;DR: In this article, the Theorie der Diffusion with quasi-neutralen Fehlordnungsstellen- Gradienten, der Chemisorption (Randschichttheorie) and des Auftretens elektrischer Felder in Reaktionsproduktschichten bedient is discussed.