Abstract
Cyclic compression tests were conducted on 2.5-μm-diameter nanolaminated graphene-aluminum (Al) composite pillars. The composite possessed three times higher damping coefficient than its pure Al counterpart, which was rationalized by the enhanced dislocation hindrance at the graphene/Al interfaces in the composites. Moreover, the cyclic compression of micro-pillars produced similar damping coefficients as the corresponding bulk sample, providing a novel and convenient approach to assess the cyclic deformation behavior and damping properties of structural materials.
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This work was supported by the financial support from the Ministry of Science and Technology of China (No. 2017YFB0703100), the Natural Science Foundation of China (No. 51771111), the Science & Technology Committee of Shanghai Municipality (No. 17520712400), the National Postdoctoral Program for Innovative Talents (No. BX20190196), and Australian Research Council. The authors thank Sam Bacon and Dr. Yujie Meng, Nanomechanics, Inc., for their assistance with the implementation of in situ nanoindentation, Prof. Jie Pan and Dr. Xiaoyi Chui (Institute of Metal Research, Chinese Academy of Sciences, China) for their assistance in cyclic compression tests of bulk samples, and Prof. Dongchan Jang (Korea Advanced Institute of Science and Technology, Korea) for the discussion about the evaluation of damping property.
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Manuscript submitted November 11, 2019.
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Lu, A., Zhao, L., Liu, Y. et al. Enhanced Damping Capacity in Graphene-Al Nanolaminated Composite Pillars Under Compression Cyclic Loading. Metall Mater Trans A 51, 1463–1468 (2020). https://doi.org/10.1007/s11661-020-05632-4
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DOI: https://doi.org/10.1007/s11661-020-05632-4