Producing titanium-niobium alloy by high energy beam

Abstract

The research is involved in producing a Ti-Nb alloy surface layer on titanium substrate by high energy beam method, as well as in examining their structures and mechanical properties. Applying electron-beam cladding it was possible to produce a Ti-Nb alloy surface layer of several millimeters, where the niobium concentration was up to 40% at. and the structure itself could be related to martensite quenching structure. At the same time, a significant microhardness increase of 3200-3400MPa was observed, which, in its turn, is connected with the formation of martensite structure. Cladding material of Ti-Nb composition could be the source in producing alloys of homogeneous microhardness and desired concentration of alloying niobium element.

Original language	English
Title of host publication	Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction"
Publisher	American Institute of Physics Inc.
Volume	1698
ISBN (Electronic)	9780735413450
DOIs	https://doi.org/10.1063/1.4937853
Publication status	Published - 15 Jan 2016
Event	2nd All-Russian Scientific Conference of Young Scientists on Advanced Materials in Technology and Construction, AMTC 2015 - Tomsk, Russian Federation Duration: 6 Oct 2015 → 9 Oct 2015

Conference

Conference	2nd All-Russian Scientific Conference of Young Scientists on Advanced Materials in Technology and Construction, AMTC 2015
Country	Russian Federation
City	Tomsk
Period	6.10.15 → 9.10.15

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1063/1.4937853

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Sharkeev, Y. P., Golkovski, M. G., Glukhov, I. A., Eroshenko, A. Y., Bataev, V. A., & Fortuna, S. V. (2016). Producing titanium-niobium alloy by high energy beam. In Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction" (Vol. 1698). [050004] American Institute of Physics Inc.. https://doi.org/10.1063/1.4937853

Producing titanium-niobium alloy by high energy beam. / Sharkeev, Yury Petrovich; Golkovski, M. G.; Glukhov, I. A.; Eroshenko, A. Yu; Bataev, V. A.; Fortuna, S. V.

Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction". Vol. 1698 American Institute of Physics Inc., 2016. 050004.

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

Sharkeev, YP, Golkovski, MG, Glukhov, IA, Eroshenko, AY, Bataev, VA & Fortuna, SV 2016, Producing titanium-niobium alloy by high energy beam. in Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction". vol. 1698, 050004, American Institute of Physics Inc., 2nd All-Russian Scientific Conference of Young Scientists on Advanced Materials in Technology and Construction, AMTC 2015, Tomsk, Russian Federation, 6.10.15. https://doi.org/10.1063/1.4937853

Sharkeev YP, Golkovski MG, Glukhov IA, Eroshenko AY, Bataev VA, Fortuna SV. Producing titanium-niobium alloy by high energy beam. In Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction". Vol. 1698. American Institute of Physics Inc. 2016. 050004 https://doi.org/10.1063/1.4937853

Sharkeev, Yury Petrovich ; Golkovski, M. G. ; Glukhov, I. A. ; Eroshenko, A. Yu ; Bataev, V. A. ; Fortuna, S. V. / Producing titanium-niobium alloy by high energy beam. Advanced Materials in Technology and Construction, AMTC 2015: Proceedings of the II All-Russian Scientific Conference of Young Scientists "Advanced Materials in Technology and Construction". Vol. 1698 American Institute of Physics Inc., 2016.

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abstract = "The research is involved in producing a Ti-Nb alloy surface layer on titanium substrate by high energy beam method, as well as in examining their structures and mechanical properties. Applying electron-beam cladding it was possible to produce a Ti-Nb alloy surface layer of several millimeters, where the niobium concentration was up to 40% at. and the structure itself could be related to martensite quenching structure. At the same time, a significant microhardness increase of 3200-3400MPa was observed, which, in its turn, is connected with the formation of martensite structure. Cladding material of Ti-Nb composition could be the source in producing alloys of homogeneous microhardness and desired concentration of alloying niobium element.",

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AB - The research is involved in producing a Ti-Nb alloy surface layer on titanium substrate by high energy beam method, as well as in examining their structures and mechanical properties. Applying electron-beam cladding it was possible to produce a Ti-Nb alloy surface layer of several millimeters, where the niobium concentration was up to 40% at. and the structure itself could be related to martensite quenching structure. At the same time, a significant microhardness increase of 3200-3400MPa was observed, which, in its turn, is connected with the formation of martensite structure. Cladding material of Ti-Nb composition could be the source in producing alloys of homogeneous microhardness and desired concentration of alloying niobium element.

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