金属、合金和化合物中示踪剂扩散测量技术

D. Gärtner, L. Belkacemi, V. Esin, F. Jomard, A. Fedotov, J. Schell, J. V. Osinskaya, A. V. Pokoev, C. Duhamel, A. Paul, S. Divinski
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引用次数: 8

摘要

示踪剂扩散是提供固体基本动力学数据的最可靠技术之一。本文介绍并讨论了几种直接方法,特别是由于灵敏度高而具有优势的放射性示踪测量、二次离子质谱(SIMS)谱分析、x射线衍射测量和卢瑟福后向散射光谱法。特别关注放射性示踪技术,详细描述了目前使用的切片技术,重点是实验应用和并发症。给出了相关的实验结果。此外,还强调了与示踪剂/扩散间联合测量有关的最新发展和进展。结果表明,该方法为在高通量实验中提供多组分合金中组成元素的浓度相关示踪扩散系数提供了可能性。简要介绍了在二元和多组分体系中采用不同类型的扩散偶联方法估计示踪剂扩散系数的可能性。最后,仔细分析了SIMS分析在细粒材料中扩散的特异性。在适用的情况下,给出了不同技术所得结果的直接比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Techniques of Tracer Diffusion Measurements in Metals, Alloys and Compounds
Tracer diffusion is one of most reliable techniques for providing basic kinetic data in solids. In the present review, selected direct methods, in particular the radiotracer measurements as a superior technique due to its high sensitivity, Secondary-Ion-Mass-Spectroscopy (SIMS) profiling, X-Ray Diffraction measurements and Rutherford Backscattering Spectrometry are presented and discussed. Special attention is put on the radiotracer technique describing the currently used sectioning techniques in detail with a focus on the experimental applications and complications. The relevant experimental results are exemplary shown. Furthermore, the most recent developments and advances related to the combined tracer/inter-diffusion measurements are highlighted. It is shown that this approach offers possibilities to provide the concentration-dependent tracer diffusion coefficients of the constituting elements in multi-component alloys in high-throughput experiments. Possibilities of estimating the tracer diffusion coefficients following different types of diffusion couple methods in binary and multicomponent systems are briefly introduced. Finally, specificity of SIMS analysis of diffusion in fine-grained materials are carefully analyzed. If applicable, a direct comparison of the results obtained by different techniques is given.
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