TMOs@Gr/Cu composites: Microstructure and properties
In this work, a new material -TMOs@Gr/Cu composites (TMOs represents transition metal oxides, M = Co, Sn, Mn; @ means hybriding; Gr means graphene) were prepared by the method of powder metallurgy after TMOs hybriding graphene through hydrothermal synthesis, and then the microstructure and propertie...
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Elsevier
2019-11-01
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| Series: | Materials & Design |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S026412751930468X |
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doaj-ca15668c99f844a092d7e9a18f34657a2020-11-25T00:08:51ZengElsevierMaterials & Design0264-12752019-11-01182TMOs@Gr/Cu composites: Microstructure and propertiesYu Zhang0Yan Li1Yanchun Li2Meihui Song3Xiaochen Zhang4Weijun Zhang5Institute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, China; School of Materials Science and Engineering, Harbin University of Science and Technology, Harbin 150000, ChinaInstitute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, ChinaInstitute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, ChinaInstitute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, ChinaInstitute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, China; Corresponding author.Institute of Advanced Technology, Heilongjiang Academy of Sciences, Harbin 150000, ChinaIn this work, a new material -TMOs@Gr/Cu composites (TMOs represents transition metal oxides, M = Co, Sn, Mn; @ means hybriding; Gr means graphene) were prepared by the method of powder metallurgy after TMOs hybriding graphene through hydrothermal synthesis, and then the microstructure and properties of TMOs@Gr/Cu composites were studied compared with Gr/Cu composites. The results revealed that the TMOs nano-particles which adsorbed on the surface of graphene exhibited a good adhesion effect in the composite materials. An obvious tendency could be found that TMOs inhibited effectively the aggregation of grapheme. At the same time, the TMOs particles would not fall off during the preparation of composite materials. Therefore, compared with Gr/Cu composites, the properties of TMOs@Gr/Cu composites, such as density, hardness, thermal conductivity had been enhanced. The properties of (Co3O4 + SnO2)@Gr/Cu composites were listed as followed: density 89.7%, hardness 185HBW, thermal conductivity 139 W/(m•°C). The properties of (Co3O4 + MnO2)@Gr/Cu composites were: density 91.7%, hardness 242HBW, thermal conductivity 151 W/(m·°C). However, the electrical conductivity of TMOs@Gr/Cu composites decreased due to a large number of crystal defects. Keywords: Copper matrix composites, Graphene, Transition metal oxides, Microstructure, Propertieshttp://www.sciencedirect.com/science/article/pii/S026412751930468X |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Yu Zhang Yan Li Yanchun Li Meihui Song Xiaochen Zhang Weijun Zhang |
| spellingShingle |
Yu Zhang Yan Li Yanchun Li Meihui Song Xiaochen Zhang Weijun Zhang TMOs@Gr/Cu composites: Microstructure and properties Materials & Design |
| author_facet |
Yu Zhang Yan Li Yanchun Li Meihui Song Xiaochen Zhang Weijun Zhang |
| author_sort |
Yu Zhang |
| title |
TMOs@Gr/Cu composites: Microstructure and properties |
| title_short |
TMOs@Gr/Cu composites: Microstructure and properties |
| title_full |
TMOs@Gr/Cu composites: Microstructure and properties |
| title_fullStr |
TMOs@Gr/Cu composites: Microstructure and properties |
| title_full_unstemmed |
TMOs@Gr/Cu composites: Microstructure and properties |
| title_sort |
tmos@gr/cu composites: microstructure and properties |
| publisher |
Elsevier |
| series |
Materials & Design |
| issn |
0264-1275 |
| publishDate |
2019-11-01 |
| description |
In this work, a new material -TMOs@Gr/Cu composites (TMOs represents transition metal oxides, M = Co, Sn, Mn; @ means hybriding; Gr means graphene) were prepared by the method of powder metallurgy after TMOs hybriding graphene through hydrothermal synthesis, and then the microstructure and properties of TMOs@Gr/Cu composites were studied compared with Gr/Cu composites. The results revealed that the TMOs nano-particles which adsorbed on the surface of graphene exhibited a good adhesion effect in the composite materials. An obvious tendency could be found that TMOs inhibited effectively the aggregation of grapheme. At the same time, the TMOs particles would not fall off during the preparation of composite materials. Therefore, compared with Gr/Cu composites, the properties of TMOs@Gr/Cu composites, such as density, hardness, thermal conductivity had been enhanced. The properties of (Co3O4 + SnO2)@Gr/Cu composites were listed as followed: density 89.7%, hardness 185HBW, thermal conductivity 139 W/(m•°C). The properties of (Co3O4 + MnO2)@Gr/Cu composites were: density 91.7%, hardness 242HBW, thermal conductivity 151 W/(m·°C). However, the electrical conductivity of TMOs@Gr/Cu composites decreased due to a large number of crystal defects. Keywords: Copper matrix composites, Graphene, Transition metal oxides, Microstructure, Properties |
| url |
http://www.sciencedirect.com/science/article/pii/S026412751930468X |
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