Browsing by Author "López, Gabriel Alejandro"

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    Segregation and phase transformations at interfaces
    (2004) López, Gabriel Alejandro; Mittemeijer, Eric Jan (Prof. Dr. Ir.)
    Important properties of metallic materials are strongly influenced by the behavior of interfaces, e.g. grain boundaries and free surfaces. Therefore the understanding of processes, which can change this behavior, have become of great importance from both the theoretical and the practical point of view. To these processes belong the grain boundary and surface segregation, the discontinuous precipitation as well as the grain boundary wetting. A particular goal of this work was to investigate the grain boundary and surface segregation in the Cu-Bi system under exactly the same conditions. The diffusivities of moving grain boundaries was determined in the Cu-In system applying, for the first time, a local analysis of growth kinetics of the discontinuous precipitation reaction. The Al-MG and Al-Zn systems were studied systematically regarding grain boundary wetting, in order to find an explanation for the enormous superplastic behavior of alloys based on these systems. The grain boundary and surface segregation were studied in the Cu-Bi system under identical conditions by using a special sample preparation procedure. After annealing of the samples at temperatures between 1073 and 1223 K segregation of Bi at grain boundaries and internal free surfaces in Cu bicrystals was accomplished. For the first time, Bi segregation at free surfaces was determined under equilibrium conditions. The segregation of Bi at the free surfaces was clearly stronger than at the grain boundaries. The morphology and kinetics of the discontinuous precipitation reaction were comprehensively studied in a Cu-4.5 At,% in alloy. Special attention was given to the determination of the concentration gradients remaining in the solute-depleted matrix. The grain boundary diffusion coefficient was determined applying a local interpretation of growth kinetics and thus the discrepancy between two differently models was eliminated. Finally the wetting behavior in Al-Mg and Al-Zn alloys was studied by a metallographic investigation. With this purpose cross-sections of samples with different compositions, which had been annelaed at different temperatures, were prepared and examined afterwards. The wetting behavior plays a substantial role regarding the mechanical characteristics of these alloys. For the first time, the formation of a second solid layer at the grain boundaries was disccussed in terms of wetting by a solid phase. During the accomplished investigations the possibilities of the analytic transmission electron microscopy were mainly used. Concentration profiles within nm range could be determined thanks to the high resolution of this technique. Furthermore Auger electron spectroscopy, light and scanning electron microscopy, as well as microanalysis and X-ray diffraction analyses were used, in order to achieve the above-mentioned goals of this work.