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Ya-ran Zhang, Qi Cai, Yong-chang Liu, Zong-qing Ma, Chong Li, and Hui-jun Li, Evaluation of precipitation hardening in TiC-reinforced Ti2AlNb-based alloys, Int. J. Miner. Metall. Mater., 25(2018), No. 4, pp.453-458. https://dx.doi.org/10.1007/s12613-018-1591-x
Ya-ran Zhang, Qi Cai, Yong-chang Liu, Zong-qing Ma, Chong Li, and Hui-jun Li, Evaluation of precipitation hardening in TiC-reinforced Ti2AlNb-based alloys, Int. J. Miner. Metall. Mater., 25(2018), No. 4, pp.453-458. https://dx.doi.org/10.1007/s12613-018-1591-x
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Evaluation of precipitation hardening in TiC-reinforced Ti2AlNb-based alloys

摘要: Ti2AlNb-based alloys with 0.0wt%, 0.6wt%, and 2.0wt% carbon nanotube (CNT) addition were fabricated from spherical Ti-22Al-25Nb powder by sintering in the B2 single-phase region. Phase identification and microstructural examination were performed to evaluate the effect of carbon addition on the hardness of the alloys. Carbon was either in a soluble state or in carbide form depending on its concentration. The acicular carbides formed around 1050℃ were identified as TiC and facilitated the transformation of α2+B2 → O. The TiC was located within the acicular O phase. The surrounding O phase was distributed in certain orientations with angles of 65° or 90° O phase particles. The obtained alloy was composed of acicular O, Widmanstatten B2+O, and acicular TiC. As a result of the precipitation of carbides as well as the O phase, the hardness of the alloy with 2.0wt% CNT addition increased to HV 429±9.

 

Evaluation of precipitation hardening in TiC-reinforced Ti2AlNb-based alloys

Abstract: Ti2AlNb-based alloys with 0.0wt%, 0.6wt%, and 2.0wt% carbon nanotube (CNT) addition were fabricated from spherical Ti-22Al-25Nb powder by sintering in the B2 single-phase region. Phase identification and microstructural examination were performed to evaluate the effect of carbon addition on the hardness of the alloys. Carbon was either in a soluble state or in carbide form depending on its concentration. The acicular carbides formed around 1050℃ were identified as TiC and facilitated the transformation of α2+B2 → O. The TiC was located within the acicular O phase. The surrounding O phase was distributed in certain orientations with angles of 65° or 90° O phase particles. The obtained alloy was composed of acicular O, Widmanstatten B2+O, and acicular TiC. As a result of the precipitation of carbides as well as the O phase, the hardness of the alloy with 2.0wt% CNT addition increased to HV 429±9.

 

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