Synthesis of compact nanocrystal oxides by severe plastic deformations methods

T. I. Arbuzova; N. M. Chebotaev; B. A. Gizhevskii; A. V. Fetisov; E. A. Kozlov; T. E. Kyrennykh; L. I. Leontiev; S. V. Naumov; A. M. Patselov; V. P. Pilugin; Yu P. Sukhorukov; V. B. Vykhodets; R. G. Zakharov; M. I. Zinigrad

Synthesis of compact nanocrystal oxides by severe plastic deformations methods

T. I. Arbuzova, N. M. Chebotaev, B. A. Gizhevskii, A. V. Fetisov, E. A. Kozlov, T. E. Kyrennykh, L. I. Leontiev, S. V. Naumov, A. M. Patselov, V. P. Pilugin, Yu P. Sukhorukov, V. B. Vykhodets, R. G. Zakharov, M. I. Zinigrad

Department of Chemical Engineering

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

1 Scopus citations

Abstract

The present work presents the original data concerning using a high pressure torsion method and a shock wave loading technique to produce compact oxide nanomaterials and investigations of the effect of severe plastic deformation on a microstructure, crystal lattice and stability of these compounds. This allowed us to compare two ways of deformation action that can be characterized as quasi-static and dynamic effect, correspondingly. Particular attention was paid to a stoichiometry and surface composition changes upon severe plastic deformations. A procedure for studying chemistry of the oxide nanomaterials by means of nuclear microanalysis and Rutherford back scattering has been worked through. For surface studies the X-ray photoelectron spectroscopy has been used. It was shown that both distortion methods permit to produce massive nano-scale oxide materials from the coarse-grained powder during a single technological cycle. Bulk nanocrystalline materials based on LaMnO₃, TiO_y and ZrO₂:Y₂O ₂ were obtained by the quasi-static deformation technique. Nanoscaled ceramics of CuO, Mn₃C₄ and LaMnO₃ were produced by the dynamic deformations. The density of the nanoceramics comes to 99%. Size effects and specific imperfection of the nanoceramics obtained lead to a set of particularities of physical properties.

Original language	English
Title of host publication	Sohn International Symposium
Subtitle of host publication	Advanced Processing of Metals and Materials - Proceedings of the International Symposium
Pages	157-167
Number of pages	11
State	Published - 2006
Event	2006 TMS Fall Extraction and Processing Division: Sohn International Symposium - San Diego, CA, United States Duration: 27 Aug 2006 → 31 Aug 2006

Publication series

Name	2006 TMS Fall Extraction and Processing Division: Sohn International Symposium
Volume	3

Conference

Conference	2006 TMS Fall Extraction and Processing Division: Sohn International Symposium
Country/Territory	United States
City	San Diego, CA
Period	27/08/06 → 31/08/06

Keywords

Nanomaterials
Oxides
Properties
Synthesis

Cite this

Arbuzova, T. I., Chebotaev, N. M., Gizhevskii, B. A., Fetisov, A. V., Kozlov, E. A., Kyrennykh, T. E., Leontiev, L. I., Naumov, S. V., Patselov, A. M., Pilugin, V. P., Sukhorukov, Y. P., Vykhodets, V. B., Zakharov, R. G., & Zinigrad, M. I. (2006). Synthesis of compact nanocrystal oxides by severe plastic deformations methods. In Sohn International Symposium: Advanced Processing of Metals and Materials - Proceedings of the International Symposium (pp. 157-167). (2006 TMS Fall Extraction and Processing Division: Sohn International Symposium; Vol. 3).

@inproceedings{4b836d9b60e34147804ec37ccfa7d73c,

title = "Synthesis of compact nanocrystal oxides by severe plastic deformations methods",

abstract = "The present work presents the original data concerning using a high pressure torsion method and a shock wave loading technique to produce compact oxide nanomaterials and investigations of the effect of severe plastic deformation on a microstructure, crystal lattice and stability of these compounds. This allowed us to compare two ways of deformation action that can be characterized as quasi-static and dynamic effect, correspondingly. Particular attention was paid to a stoichiometry and surface composition changes upon severe plastic deformations. A procedure for studying chemistry of the oxide nanomaterials by means of nuclear microanalysis and Rutherford back scattering has been worked through. For surface studies the X-ray photoelectron spectroscopy has been used. It was shown that both distortion methods permit to produce massive nano-scale oxide materials from the coarse-grained powder during a single technological cycle. Bulk nanocrystalline materials based on LaMnO3, TiOy and ZrO2:Y2O 2 were obtained by the quasi-static deformation technique. Nanoscaled ceramics of CuO, Mn3C4 and LaMnO3 were produced by the dynamic deformations. The density of the nanoceramics comes to 99%. Size effects and specific imperfection of the nanoceramics obtained lead to a set of particularities of physical properties.",

keywords = "Nanomaterials, Oxides, Properties, Synthesis",

author = "Arbuzova, {T. I.} and Chebotaev, {N. M.} and Gizhevskii, {B. A.} and Fetisov, {A. V.} and Kozlov, {E. A.} and Kyrennykh, {T. E.} and Leontiev, {L. I.} and Naumov, {S. V.} and Patselov, {A. M.} and Pilugin, {V. P.} and Sukhorukov, {Yu P.} and Vykhodets, {V. B.} and Zakharov, {R. G.} and Zinigrad, {M. I.}",

year = "2006",

language = "אנגלית",

isbn = "0873396332",

series = "2006 TMS Fall Extraction and Processing Division: Sohn International Symposium",

pages = "157--167",

booktitle = "Sohn International Symposium",

note = "2006 TMS Fall Extraction and Processing Division: Sohn International Symposium ; Conference date: 27-08-2006 Through 31-08-2006",

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Arbuzova, TI, Chebotaev, NM, Gizhevskii, BA, Fetisov, AV, Kozlov, EA, Kyrennykh, TE, Leontiev, LI, Naumov, SV, Patselov, AM, Pilugin, VP, Sukhorukov, YP, Vykhodets, VB, Zakharov, RG & Zinigrad, MI 2006, Synthesis of compact nanocrystal oxides by severe plastic deformations methods. in Sohn International Symposium: Advanced Processing of Metals and Materials - Proceedings of the International Symposium. 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium, vol. 3, pp. 157-167, 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium, San Diego, CA, United States, 27/08/06.

Synthesis of compact nanocrystal oxides by severe plastic deformations methods. / Arbuzova, T. I.; Chebotaev, N. M.; Gizhevskii, B. A. et al.
Sohn International Symposium: Advanced Processing of Metals and Materials - Proceedings of the International Symposium. 2006. p. 157-167 (2006 TMS Fall Extraction and Processing Division: Sohn International Symposium; Vol. 3).

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

TY - GEN

T1 - Synthesis of compact nanocrystal oxides by severe plastic deformations methods

AU - Arbuzova, T. I.

AU - Chebotaev, N. M.

AU - Gizhevskii, B. A.

AU - Fetisov, A. V.

AU - Kozlov, E. A.

AU - Kyrennykh, T. E.

AU - Leontiev, L. I.

AU - Naumov, S. V.

AU - Patselov, A. M.

AU - Pilugin, V. P.

AU - Sukhorukov, Yu P.

AU - Vykhodets, V. B.

AU - Zakharov, R. G.

AU - Zinigrad, M. I.

PY - 2006

Y1 - 2006

N2 - The present work presents the original data concerning using a high pressure torsion method and a shock wave loading technique to produce compact oxide nanomaterials and investigations of the effect of severe plastic deformation on a microstructure, crystal lattice and stability of these compounds. This allowed us to compare two ways of deformation action that can be characterized as quasi-static and dynamic effect, correspondingly. Particular attention was paid to a stoichiometry and surface composition changes upon severe plastic deformations. A procedure for studying chemistry of the oxide nanomaterials by means of nuclear microanalysis and Rutherford back scattering has been worked through. For surface studies the X-ray photoelectron spectroscopy has been used. It was shown that both distortion methods permit to produce massive nano-scale oxide materials from the coarse-grained powder during a single technological cycle. Bulk nanocrystalline materials based on LaMnO3, TiOy and ZrO2:Y2O 2 were obtained by the quasi-static deformation technique. Nanoscaled ceramics of CuO, Mn3C4 and LaMnO3 were produced by the dynamic deformations. The density of the nanoceramics comes to 99%. Size effects and specific imperfection of the nanoceramics obtained lead to a set of particularities of physical properties.

AB - The present work presents the original data concerning using a high pressure torsion method and a shock wave loading technique to produce compact oxide nanomaterials and investigations of the effect of severe plastic deformation on a microstructure, crystal lattice and stability of these compounds. This allowed us to compare two ways of deformation action that can be characterized as quasi-static and dynamic effect, correspondingly. Particular attention was paid to a stoichiometry and surface composition changes upon severe plastic deformations. A procedure for studying chemistry of the oxide nanomaterials by means of nuclear microanalysis and Rutherford back scattering has been worked through. For surface studies the X-ray photoelectron spectroscopy has been used. It was shown that both distortion methods permit to produce massive nano-scale oxide materials from the coarse-grained powder during a single technological cycle. Bulk nanocrystalline materials based on LaMnO3, TiOy and ZrO2:Y2O 2 were obtained by the quasi-static deformation technique. Nanoscaled ceramics of CuO, Mn3C4 and LaMnO3 were produced by the dynamic deformations. The density of the nanoceramics comes to 99%. Size effects and specific imperfection of the nanoceramics obtained lead to a set of particularities of physical properties.

KW - Nanomaterials

KW - Oxides

KW - Properties

KW - Synthesis

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T3 - 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium

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EP - 167

BT - Sohn International Symposium

T2 - 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium

Y2 - 27 August 2006 through 31 August 2006

ER -

Arbuzova TI, Chebotaev NM, Gizhevskii BA, Fetisov AV, Kozlov EA, Kyrennykh TE et al. Synthesis of compact nanocrystal oxides by severe plastic deformations methods. In Sohn International Symposium: Advanced Processing of Metals and Materials - Proceedings of the International Symposium. 2006. p. 157-167. (2006 TMS Fall Extraction and Processing Division: Sohn International Symposium).

Synthesis of compact nanocrystal oxides by severe plastic deformations methods

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Publication series

Conference

Keywords

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