Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure

V. A. Shcherbakov; I. E. Semenchuk; A. N. Gryadunov; G. R. Nigmatullina; M. I. Alymov; I. V. Saikov; W. Sun

doi:10.3103/S1061386222050077

Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure

V. A. Shcherbakov^*, I. E. Semenchuk, A. N. Gryadunov, G. R. Nigmatullina, M. I. Alymov, I. V. Saikov, W. Sun

^*Corresponding author for this work

School of Mechatronical Engineering

RAS - Merzhanov Institute of Structural Macrokinetics and Materials Science

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Abstract: Ultra-high-temperature TiC–ZrC composites with submicron structure were synthesized by electro-thermal explosion (ETE) under pressure. The precursors for synthesis were prepared from a mixture containing Ti, Zr, and carbon black powders by high energy ball milling in hexane. The influence of mechanical activation (MA) on the metal crystalline structure was studied. It was shown that the phase composition of the precursor depends on MA duration. The partial amorphization of metal particles occurred after 40 min of MA; while after 90 min, the amorphization was completed. In the last case, carbide phase crystallites with a cubic structure were formed. It was shown that the composite synthesized from precursor activated for 40 min contains Zr_0.50Ti_0.50C single-phase solid solution with a grain size of 3–5 μm, while the composite synthesized from precursor activated for 90 min consists of Zr_0.14Ti_0.86C and Zr_0.74Ti_0.26C phases with a grain size of about 0.2 μm. The Vickers hardness of composites with a residual porosity of no more than 10% was found to be in the range from 11.3 to 18.53 GPa.

Original language	English
Pages (from-to)	261-267
Number of pages	7
Journal	International Journal of Self-Propagating High-Temperature Synthesis
Volume	31
Issue number	4
DOIs	https://doi.org/10.3103/S1061386222050077
Publication status	Published - Dec 2022

Keywords

carbides
electro-thermal explosion (ETE)
exothermic synthesis
mechanical activation
solid solution
ultra-high-temperature composite

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10.3103/S1061386222050077

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@article{de1f2b9c9c97441ba32634a5e29e174b,

title = "Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure",

abstract = "Abstract: Ultra-high-temperature TiC–ZrC composites with submicron structure were synthesized by electro-thermal explosion (ETE) under pressure. The precursors for synthesis were prepared from a mixture containing Ti, Zr, and carbon black powders by high energy ball milling in hexane. The influence of mechanical activation (MA) on the metal crystalline structure was studied. It was shown that the phase composition of the precursor depends on MA duration. The partial amorphization of metal particles occurred after 40 min of MA; while after 90 min, the amorphization was completed. In the last case, carbide phase crystallites with a cubic structure were formed. It was shown that the composite synthesized from precursor activated for 40 min contains Zr0.50Ti0.50C single-phase solid solution with a grain size of 3–5 μm, while the composite synthesized from precursor activated for 90 min consists of Zr0.14Ti0.86C and Zr0.74Ti0.26C phases with a grain size of about 0.2 μm. The Vickers hardness of composites with a residual porosity of no more than 10% was found to be in the range from 11.3 to 18.53 GPa.",

keywords = "carbides, electro-thermal explosion (ETE), exothermic synthesis, mechanical activation, solid solution, ultra-high-temperature composite",

author = "Shcherbakov, {V. A.} and Semenchuk, {I. E.} and Gryadunov, {A. N.} and Nigmatullina, {G. R.} and Alymov, {M. I.} and Saikov, {I. V.} and W. Sun",

note = "Publisher Copyright: {\textcopyright} 2022, Allerton Press, Inc.",

year = "2022",

month = dec,

doi = "10.3103/S1061386222050077",

language = "English",

volume = "31",

pages = "261--267",

journal = "International Journal of Self-Propagating High-Temperature Synthesis",

issn = "1061-3862",

publisher = "Pleiades Publishing",

number = "4",

}

TY - JOUR

T1 - Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure

AU - Shcherbakov, V. A.

AU - Semenchuk, I. E.

AU - Gryadunov, A. N.

AU - Nigmatullina, G. R.

AU - Alymov, M. I.

AU - Saikov, I. V.

AU - Sun, W.

PY - 2022/12

Y1 - 2022/12

N2 - Abstract: Ultra-high-temperature TiC–ZrC composites with submicron structure were synthesized by electro-thermal explosion (ETE) under pressure. The precursors for synthesis were prepared from a mixture containing Ti, Zr, and carbon black powders by high energy ball milling in hexane. The influence of mechanical activation (MA) on the metal crystalline structure was studied. It was shown that the phase composition of the precursor depends on MA duration. The partial amorphization of metal particles occurred after 40 min of MA; while after 90 min, the amorphization was completed. In the last case, carbide phase crystallites with a cubic structure were formed. It was shown that the composite synthesized from precursor activated for 40 min contains Zr0.50Ti0.50C single-phase solid solution with a grain size of 3–5 μm, while the composite synthesized from precursor activated for 90 min consists of Zr0.14Ti0.86C and Zr0.74Ti0.26C phases with a grain size of about 0.2 μm. The Vickers hardness of composites with a residual porosity of no more than 10% was found to be in the range from 11.3 to 18.53 GPa.

AB - Abstract: Ultra-high-temperature TiC–ZrC composites with submicron structure were synthesized by electro-thermal explosion (ETE) under pressure. The precursors for synthesis were prepared from a mixture containing Ti, Zr, and carbon black powders by high energy ball milling in hexane. The influence of mechanical activation (MA) on the metal crystalline structure was studied. It was shown that the phase composition of the precursor depends on MA duration. The partial amorphization of metal particles occurred after 40 min of MA; while after 90 min, the amorphization was completed. In the last case, carbide phase crystallites with a cubic structure were formed. It was shown that the composite synthesized from precursor activated for 40 min contains Zr0.50Ti0.50C single-phase solid solution with a grain size of 3–5 μm, while the composite synthesized from precursor activated for 90 min consists of Zr0.14Ti0.86C and Zr0.74Ti0.26C phases with a grain size of about 0.2 μm. The Vickers hardness of composites with a residual porosity of no more than 10% was found to be in the range from 11.3 to 18.53 GPa.

KW - carbides

KW - electro-thermal explosion (ETE)

KW - exothermic synthesis

KW - mechanical activation

KW - solid solution

KW - ultra-high-temperature composite

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U2 - 10.3103/S1061386222050077

DO - 10.3103/S1061386222050077

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JF - International Journal of Self-Propagating High-Temperature Synthesis

IS - 4

ER -

Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure

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