Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering

Abstract

The volume changes and structure of the sintered powder compacts Ti + Ti_nA_m were studied, where A is one of the elements forming a refractory compound with titanium (Si, C or B). The comparative results of porosity changes in sintered composites of Ti + Ti_nA_m powder compositions obtained by different technological methods were presented. It is shown that various methods of combining the components have a significant effect on the macrostructure formation of the metal matrix composite including grain size and porosity while maintaining the basic phase composition. The use of synthesized powders leads to reduce in a porosity of the sintered composites.

Original language	English
Title of host publication	Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures
Editors	Vasily M. Fomin, Victor E. Panin, Sergey G. Psakhie
Publisher	American Institute of Physics Inc.
Volume	2051
ISBN (Electronic)	9780735417779
DOIs	https://doi.org/10.1063/1.5083379
Publication status	Published - 12 Dec 2018
Event	International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018 - Tomsk, Russian Federation Duration: 1 Oct 2018 → 5 Oct 2018

Conference

Conference	International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018
Country	Russian Federation
City	Tomsk
Period	1.10.18 → 5.10.18

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1063/1.5083379

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Korosteleva, E. N., Pribytkov, G. A., Korzhova, V. V., & Krinitcyn, M. G. (2018). Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering. In V. M. Fomin, V. E. Panin, & S. G. Psakhie (Eds.), Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures (Vol. 2051). [020136] American Institute of Physics Inc.. https://doi.org/10.1063/1.5083379

Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering. / Korosteleva, E. N.; Pribytkov, G. A.; Korzhova, V. V.; Krinitcyn, M. G.

Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. ed. / Vasily M. Fomin; Victor E. Panin; Sergey G. Psakhie. Vol. 2051 American Institute of Physics Inc., 2018. 020136.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Korosteleva, EN, Pribytkov, GA, Korzhova, VV & Krinitcyn, MG 2018, Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering. in VM Fomin, VE Panin & SG Psakhie (eds), Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. vol. 2051, 020136, American Institute of Physics Inc., International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018, Tomsk, Russian Federation, 1.10.18. https://doi.org/10.1063/1.5083379

Korosteleva EN, Pribytkov GA, Korzhova VV, Krinitcyn MG. Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering. In Fomin VM, Panin VE, Psakhie SG, editors, Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. Vol. 2051. American Institute of Physics Inc. 2018. 020136 https://doi.org/10.1063/1.5083379

Korosteleva, E. N. ; Pribytkov, G. A. ; Korzhova, V. V. ; Krinitcyn, M. G. / Features of in situ structure formation in powder materials based on titanium and refractory compound during vacuum sintering. Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. editor / Vasily M. Fomin ; Victor E. Panin ; Sergey G. Psakhie. Vol. 2051 American Institute of Physics Inc., 2018.

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abstract = "The volume changes and structure of the sintered powder compacts Ti + TinAm were studied, where A is one of the elements forming a refractory compound with titanium (Si, C or B). The comparative results of porosity changes in sintered composites of Ti + TinAm powder compositions obtained by different technological methods were presented. It is shown that various methods of combining the components have a significant effect on the macrostructure formation of the metal matrix composite including grain size and porosity while maintaining the basic phase composition. The use of synthesized powders leads to reduce in a porosity of the sintered composites.",

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N2 - The volume changes and structure of the sintered powder compacts Ti + TinAm were studied, where A is one of the elements forming a refractory compound with titanium (Si, C or B). The comparative results of porosity changes in sintered composites of Ti + TinAm powder compositions obtained by different technological methods were presented. It is shown that various methods of combining the components have a significant effect on the macrostructure formation of the metal matrix composite including grain size and porosity while maintaining the basic phase composition. The use of synthesized powders leads to reduce in a porosity of the sintered composites.

AB - The volume changes and structure of the sintered powder compacts Ti + TinAm were studied, where A is one of the elements forming a refractory compound with titanium (Si, C or B). The comparative results of porosity changes in sintered composites of Ti + TinAm powder compositions obtained by different technological methods were presented. It is shown that various methods of combining the components have a significant effect on the macrostructure formation of the metal matrix composite including grain size and porosity while maintaining the basic phase composition. The use of synthesized powders leads to reduce in a porosity of the sintered composites.

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