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Synthesis of TiN–TiB2–hBN composite powders with a core-shell structure and preparation of bulk samples

TiN–TiB2–hBN composite powders were synthesized by a nitride boronizing process using TiN and amorphous boron as the raw materials, and the reaction process of TiN–B powder mixture was investigated by heat treatment at elevated temperatures. At 1400 °C in a vacuum, TiN–TiB2–hBN composite powders wit...

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Published in:	Materials today communications 2021-12, Vol.29, p.102783, Article 102783
Main Authors:	Tian, Shi, Guo, Wenchao, He, Qianglong, Wang, Aiyang, Tian, Tian, Liu, Chun, Hu, Lanxin, Zhang, Zhixiao, Wang, Hao, Wang, Weimin, Fu, Zhengyi
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Language:	English
Subjects:	Core-shell Microstructure Reaction TiN–TiB2–hBN
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container_title	Materials today communications
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creator	Tian, Shi Guo, Wenchao He, Qianglong Wang, Aiyang Tian, Tian Liu, Chun Hu, Lanxin Zhang, Zhixiao Wang, Hao Wang, Weimin Fu, Zhengyi
description	TiN–TiB2–hBN composite powders were synthesized by a nitride boronizing process using TiN and amorphous boron as the raw materials, and the reaction process of TiN–B powder mixture was investigated by heat treatment at elevated temperatures. At 1400 °C in a vacuum, TiN–TiB2–hBN composite powders with a core-shell structure of layered hBN-wrapped TiB2 were obtained, which can be used to prepare ceramic composites with excellent properties. The results showed that B atoms began to diffuse into TiN and replace the N atoms to form TiB2 at high temperature; then, the substituted N escaped outwards, and upon contacted with B, formed hBN at the surface of the TiB2 particles. The relative density, bending strength, and fracture toughness of the 70 vol% TiN–17.6 vol% TiB2–12.4 vol% hBN (TB73) composite prepared by reactive sintering were 98.90%, 521 MPa, and 4.22 MPa m1/2, respectively, which were much higher than that of fabricated via conventional method (TBN73: 88.02%, 198 MPa, and 2.58 MPa m1/2).
doi_str_mv	10.1016/j.mtcomm.2021.102783
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At 1400 °C in a vacuum, TiN–TiB2–hBN composite powders with a core-shell structure of layered hBN-wrapped TiB2 were obtained, which can be used to prepare ceramic composites with excellent properties. The results showed that B atoms began to diffuse into TiN and replace the N atoms to form TiB2 at high temperature; then, the substituted N escaped outwards, and upon contacted with B, formed hBN at the surface of the TiB2 particles. 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At 1400 °C in a vacuum, TiN–TiB2–hBN composite powders with a core-shell structure of layered hBN-wrapped TiB2 were obtained, which can be used to prepare ceramic composites with excellent properties. The results showed that B atoms began to diffuse into TiN and replace the N atoms to form TiB2 at high temperature; then, the substituted N escaped outwards, and upon contacted with B, formed hBN at the surface of the TiB2 particles. The relative density, bending strength, and fracture toughness of the 70 vol% TiN–17.6 vol% TiB2–12.4 vol% hBN (TB73) composite prepared by reactive sintering were 98.90%, 521 MPa, and 4.22 MPa m1/2, respectively, which were much higher than that of fabricated via conventional method (TBN73: 88.02%, 198 MPa, and 2.58 MPa m1/2).</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.mtcomm.2021.102783</doi></addata></record>
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title	Synthesis of TiN–TiB2–hBN composite powders with a core-shell structure and preparation of bulk samples
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