Microstructure Analysis of Multilayer Graphene Reinforced Flake Titanium Composites

Yangui Yang, Zhifang Cheng, Hongmei Zhang, Xinlong Jiao, Binbin Liu, Yanbo Zhao

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

Different multilayer graphene reinforced flake titanium matrix composite mixed powders were prepared by high energy ball milling. MLG / flake Ti composites were prepared by low temperature and high voltage discharge plasma sintering (SPS) and heat treated at high temperature (950°C). Flake Ti powders with different multilayer graphene (MLG) distribution were obtained by controlling the ball milling process parameters. The effects of MLG content and high temperature heat treatment time on the microstructure were studied. It is found that the proportion of flakes increases gradually with the extension of ball milling time. Through the observation of SPS preform, it is found that the lamella is basically perpendicular to the sintering pressure direction, forming an obvious layered structure. The mixture of titanium chips and MLG is distributed around the titanium lamella, forming an obvious interface, and there are a large number of needle like substances on the surface of the titanium lamella.

Original languageEnglish
Title of host publication2022 3rd International Conference on Clean and Green Energy Engineering, CGEE 2022
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages21-25
Number of pages5
ISBN (Electronic)9781665452656
DOIs
Publication statusPublished - 2022
Event3rd International Conference on Clean and Green Energy Engineering, CGEE 2022 - Istanbul, Turkey
Duration: 28 Aug 202230 Aug 2022

Publication series

Name2022 3rd International Conference on Clean and Green Energy Engineering, CGEE 2022

Conference

Conference3rd International Conference on Clean and Green Energy Engineering, CGEE 2022
Country/TerritoryTurkey
CityIstanbul
Period28/08/2230/08/22

Keywords

  • c composite materials
  • grapheme
  • heat treatment
  • microstructure

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