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Metal Science and Heat Treatment

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22-06-2020

Preparation, Structure and Properties of Copper-Based Composites with Additions of Fullerenes and Fullerene Soot

Authors: E. V. Bobrynina, T. V. Larionova, T. S. Kol’tsova, Y. Zhang, X. Liang, O. V. Tolochko

Published in: Metal Science and Heat Treatment | Issue 1-2/2020

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Abstract

Copper–fullerene/fullerene soot composites are prepared using different processes. Structure, hardness, tribological properties, and thermal conductivity of the composites are studied. It is shown that mixing at the molecular level makes it possible to obtain copper–fullerene/fullerene soot composites with more uniform carbon distribution and better combination of properties than mechanical mixing.

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A. I. Rudskoi, K. N. Volkov, S. Yu. Kondrat’ev, and Yu. A. Sokolov, Physical Processes and Technology for Preparing Metal Powders from a Melt [in Russian], St. Petersburg Politech. Univ. (2018).

A. I. Rudskoi, S. Yu. Kondrat’ev, Yu. A. Sokolov, and V. N. Kopaev, “Simulation of the layer-by-layer synthesis of articles with an electron beam,” Tech. Phys., 60(11), 1663–1669 (2015).CrossRef

A. I. Rudskoi, S. Yu. Kondrat’ev, and Yu. A. Sokolov, “New approach to synthesis of powder and composite materials by electron beam. Part 1. Technological features of the process,” Met. Sci. Heat Treat., 58(1 – 2), 27 – 32 (2016).

Yu. A. Sokolov, N. V. Pavlushin, and S. Y. Kondrat’ev, “New additive technologies based on ion beams,” Russ. Eng. Res., 36(12), 1012 – 1016 (2016).CrossRef

V. N. Kokorin, A. I. Rudskoi, V. I. Filimonov, et al., Theory and Practice of Pressing heterophase Moistened Mechanical Mixtures Based on Iron [in Russian], Izd. UlGTU, Ul’yanovsk (2012).

L. Wang, Y. Cui, S. Yang, et al., “Microstructure and properties of carbon nanosheet_copper composites processed by particle-assisted shear exfoliation,” RSC Adv., 5, 19321 – 19328 (2015).CrossRef

T. Varol and A. Canakci, “The effect of type and ratio of reinforcement on the synthesis and characterization Cu based nanocomposites by flake powder metallurgy,” J. Alloys Compd., 649, 1066 – 1074 (2015).CrossRef

P. Jenei, E. Yoon, J. Gubicza, et al., “Microstructure and hardness of copper-carbon nanotube composites consolidated by high pressure torsion,” Mater. Sci. Eng. A, 528, 4690 – 4695 (2011).CrossRef

M. R. Akbarpour, S. Alipour, M. Farvizi, and H. S. Kim, “Mechanical, tribological and electrical properties of Cu-CNT composites fabricated by flake powder metallurgy method,” Arch. Civil Mechan. Eng., 19, 694 – 706 (2019).CrossRef

10.

X. Wang, B. Guo, S. Nia, et al., “Acquiring well balanced strength and ductility of Cu_CNTs composites with uniform dispersion of CNTs and strong interfacial bonding,” Mater. Sci. Eng. A, 733, 144 – 152 (2018).CrossRef

11.

S. I. Cha, K. T. Kim, S. N. Arshad, et al., “Extraordinary strengthening effect of carbon nanotubes in metal-matrix nanocomposites processed by molecular-level mixing,” Adv. Mater., 17, 1377 – 1381 (2005).CrossRef

12.

L. Wang, Z. Yang, Y. Cui, et al., “Graphene-copper composite with micro-layered grains and ultrahigh strength,” Sci. Rep., 7, 41896 (2017).CrossRef

13.

K. T. Kim, S. I. Cha, and S. H. Hong, “Hardness and wear resistance of carbon nanotube reinforced Cu matrix nanocomposites,” Mater. Sci. Eng. A, 46–50, 449 – 451 (2007).

14.

J. Hwang, T. Yoon, S. H. Jin, et al., “Enhanced mechanical properties of graphene/copper nanocomposites using a molecular-level mixing process,” Adv. Mater., 25(46), 6724 – 6729 (2013).CrossRef

15.

S. K. Singhal, M. L. Lata, S. R. Kabi, and R. B. Mathur, “Synthesis of Cu/CNTs nanocomposites for antimicrobial activity,” Adv. Nat. Sci. Nanosci. Nanotechnol., 3, 045011 (10 pp.) (2012).

16.

https://dadec60.lookchem.com site company Suzhou Dade Carbon Nanotechnology Co: Electronic source.

17.

T. Larionova, T. Koltsova, Y. Fadin, and O. Tolochko, “Friction and wear of copper–carbon nanofibers compact composites prepared by chemical vapor deposition,” Wear, 319(1 – 2), 118 – 122 (2014).

Title: Preparation, Structure and Properties of Copper-Based Composites with Additions of Fullerenes and Fullerene Soot
Authors: E. V. Bobrynina
T. V. Larionova
T. S. Kol’tsova
Y. Zhang
X. Liang
O. V. Tolochko
Publication date: 22-06-2020
Publisher: Springer US
Published in: Metal Science and Heat Treatment / Issue 1-2/2020
Print ISSN: 0026-0673
Electronic ISSN: 1573-8973
DOI: https://doi.org/10.1007/s11041-020-00514-3

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