会议论文详细信息
18th Chemnitz Seminar on Materials Engineering – 18. Werkstofftechnisches Kolloquium
Plasma electrolytic oxidation of AMCs
Morgenstern, R.^1 ; Sieber, M.^1 ; Lampke, T.^1
Materials and Surface Engineering Group, Institute of Materials Science and Engineering, Technische Universität Chemnitz, Chemnitz
09125, Germany^1
关键词: Aluminum matrix composites (AMCs);    Ceramic reinforcements;    Chemical compositions;    Coating characteristics;    Coating properties;    Lightweight components;    Plasma electrolytic oxidation;    Thermodynamically stable;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/118/1/012031/pdf
DOI  :  10.1088/1757-899X/118/1/012031
来源: IOP
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【 摘 要 】

Aluminum Matrix Composites (AMCs) consisting of high-strength alloys and ceramic reinforcement phases exhibit a high potential for security relevant lightweight components due to their high specific mechanical properties. However, their application as tribologically stressed components is limited because of their susceptibility against fatigue wear and delamination wear. Oxide ceramic protective coatings produced by plasma electrolytic oxidation (PEO) can solve these problems and extend the possible applications of AMCs. The substrate material was powder metallurgically processed using alloy EN AW 2017 and SiC or Al2O3particles. The influence of material properties like particle type, size and volume fraction on coating characteristics is clarified within this work. An alkaline silicate electrolyte was used to produce PEO coatings with technically relevant thicknesses under bipolar-pulsed current conditions. Coating properties were evaluated with regard to morphology, chemical composition, hardness and wear resistance. The particle type proved to have the most significant effect on the coating properties. Whereas compactness and thickness are not deteriorated by the incorporation of thermodynamically stable alumina particles, the decomposition of silica particles during the PEO processes causes an increase of the porosity. The higher silica particle content decreases also the coating thickness and hardness, which leads in particular to reduction of the wear resistance of the PEO coatings. Finally, different approaches for the reduction of the coating porosity of silica reinforced AMCs are discussed.

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