Abstract
To better understand the material properties of cast aluminum alloys, the mechanical properties of microscopic structures (the eutectic structure and the α-Al phase) have been systematically examined using a special nano-indentation hardness test machine. In this approach, a triangular indentation is applied directly to the eutectic structure or α-Al phase, and the mechanical properties evaluated through hardness and load-strain relationships. The hardness of the eutectic phase varied, depending on the structural characteristics of the different intermetallic compounds. High values of hardness were obtained structures of the DO3 type, e.g., Al5FeSi, but low hardness for CuAl2 and Mg2Si. The hardness of CuAl2 and Mg2Si had almost the same values as that of the α-Al matrix. In addition, from the nano-indentation hardness test, the effects of α-Al grain characteristics on the mechanical properties were clarified. The hardness of the α-Al grain was linearly related to the grain size and the distance from the grain boundary, where the higher the hardness, the smaller the grain size and the closer to the grain boundary. The hardness level was attributed to the different severity of slip resistance of the atoms during the indentation loading.
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Acknowledgements
The authors would like to acknowledge the technical support of Dr. Jun Kobayashi, Dr. Noriko Muto and Mr. Tatsuya Taki at Akita Prefectural University.
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Okayasu, M., Takasu, S. & Mizuno, M. Relevance of instrumented nano-indentation for the assessment of the mechanical properties of eutectic crystals and α-Al grain in cast aluminum alloys. J Mater Sci 47, 241–250 (2012). https://doi.org/10.1007/s10853-011-5791-2
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DOI: https://doi.org/10.1007/s10853-011-5791-2