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Selective laser melting of carbon/AlSi10Mg composites: Microstructure, mechanical and electronical properties

Selective laser melting of carbon/AlSi10Mg composites: Microstructure, mechanical and electronical properties
Selective laser melting of carbon/AlSi10Mg composites: Microstructure, mechanical and electronical properties
Carbon nanotubes/AlSi10Mg composites has drawn lots of attention in structural engineering and functional device applications due to its extraordinary high elastic modulus and mechanical strength as well as excellent electrical and thermal conductivities. In this study, the CNTs/AlSi10Mg composites was firstly prepared and then processed by selective laser melting. The powder preparation, SLM process, and microstructure evolution, properties were clarified. The results showed that CNTs were decomposed due to the direct interaction with the laser beam. The SLMed composites displayed a similar microstructure to that of SLMed AlSi10Mg. The common brittleness phase Al4C3 didn't form, and the carbon dispersion strengthening was observed. The electrical resistivity of the composites was reduced significantly and the hardness was improved.
0925-8388
271 - 281
Zhao, X.
70e12f26-5ece-46cd-a186-3cac70e99a6f
Song, B.
2c60f488-b1b0-40ec-9172-7f82aae807bb
Fan, W.
8a4258ab-be2e-4fd7-88c1-c2e8876865f7
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Shi, Y.
1b1c66c0-d97f-41ac-8fc5-21de2a28c2d8
Zhao, X.
70e12f26-5ece-46cd-a186-3cac70e99a6f
Song, B.
2c60f488-b1b0-40ec-9172-7f82aae807bb
Fan, W.
8a4258ab-be2e-4fd7-88c1-c2e8876865f7
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Shi, Y.
1b1c66c0-d97f-41ac-8fc5-21de2a28c2d8

Zhao, X., Song, B., Fan, W., Zhang, Y. and Shi, Y. (2016) Selective laser melting of carbon/AlSi10Mg composites: Microstructure, mechanical and electronical properties. Journal of Alloys and Compounds, 665, 271 - 281. (doi:10.1016/j.jallcom.2015.12.126).

Record type: Article

Abstract

Carbon nanotubes/AlSi10Mg composites has drawn lots of attention in structural engineering and functional device applications due to its extraordinary high elastic modulus and mechanical strength as well as excellent electrical and thermal conductivities. In this study, the CNTs/AlSi10Mg composites was firstly prepared and then processed by selective laser melting. The powder preparation, SLM process, and microstructure evolution, properties were clarified. The results showed that CNTs were decomposed due to the direct interaction with the laser beam. The SLMed composites displayed a similar microstructure to that of SLMed AlSi10Mg. The common brittleness phase Al4C3 didn't form, and the carbon dispersion strengthening was observed. The electrical resistivity of the composites was reduced significantly and the hardness was improved.

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Published date: 25 April 2016

Identifiers

Local EPrints ID: 453741
URI: http://eprints.soton.ac.uk/id/eprint/453741
DOI: doi:10.1016/j.jallcom.2015.12.126
ISSN: 0925-8388
PURE UUID: 705f8b87-df27-4f5e-b79d-f2049c0ba7c9
ORCID for X. Zhao: ORCID iD orcid.org/0000-0002-9714-3176

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Date deposited: 21 Jan 2022 17:48
Last modified: 16 Mar 2024 15:02

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Contributors

Author: X. Zhao ORCID iD
Author: B. Song
Author: W. Fan
Author: Y. Zhang
Author: Y. Shi

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