尖晶石
活化能
锌
扩散
动力学
化学
反应速率
反应机理
反应级数
氧化物
相界
化学动力学
惰性
反应速率常数
相(物质)
无机化学
物理化学
热力学
材料科学
催化作用
冶金
有机化学
物理
量子力学
标识
DOI:10.1111/j.1151-2916.1965.tb14679.x
摘要
Quantitative X‐ray diffraction methods were used to define the kinetics of spinel formation. Diffusion controlled reaction rate constants were calculated on the basis of the reaction models of Jander, Dunwald‐Wagner, Valensi, Zhuravlev et al. , Ginstling‐Brounshte'n, and Kroger‐Ziegler. The model proposed by Valensi is valid for describing solid‐solid reaction rates in the later stages of the reaction. Inert markers indicated that diffusion of zinc ions through the spinel layer is the rate controlling mechanism. The activation energy for the process is 54,200 cal/mole. In the early stages of the reaction there is a second‐order phase boundary kinetic process with an activation energy of 28,700 cal/ mole. The rate of chemical combination at the zinc‐oxide‐spinel phase boundary is believed to be rate controlling.
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