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Effect of Induced Current Frequency on Microstructure and Properties of In-situ Synthesized Al3Ti/ Composites
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College of Materials Science and Engineering, Xi´an University of Science and Technology

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International cooperation project of Ministry of science and technology China (2015DFR50990-01); Open topic of Shaanxi Key Laboratory of Nano-materials and Technology, Xi"an University of Architecture and Technology(18JS060) and (18JS075).

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    Abstract:

    Using metal Al as substrate and titanium fiber as reactive source,an Al3Ti/Al composite was fabricated by applying induction heating,and the inductive magnetic field generate by the coil was used to promote the in-situ reaction rate of aluminum and titanium.The reaction temperature was preliminarily judged by differential thermal analysis (DTC) to be about 800 degrees, and the obtained samples were characterized by X-ray diffraction(XRD),scanning electron microscopy(SEM) and wear testers.The results show that when the alternating current frequency is 7KHz, the current is 8A, and the time is 5min.,the titanium fiber react with Al completely,and the dispersed distribution of Al3Ti particles are in-situ synthesized, and the average size of the particles reach 3μm; Under the condition of 10N load and air as medium, the friction coefficient decreases first and then increases with the increase of alternating current frequency. The friction coefficient at the frequency of 7KHz is the lowest value of 0.2, the wear amount is the least, and the wear resistance is optimal.

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[yanyuting, Niu Libin, An Yujiao, Wang Shengya, Dang Lijuan, Yan Mengting, Fu Zhe. Effect of Induced Current Frequency on Microstructure and Properties of In-situ Synthesized Al3Ti/ Composites[J]. Rare Metal Materials and Engineering,2020,49(6):2175~2181.]
DOI:10.12442/j. issn.1002-185X.20190665

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History
  • Received:August 14,2019
  • Revised:January 13,2020
  • Adopted:February 20,2020
  • Online: July 09,2020
  • Published: