The effects of e-beam irradiation with doses up to 1 GGy on the propertie of titanium foil
- Autores: Sergeev P.1, Kovalets N.1,2, Kozhina E.1, Bedin S.1,2
-
Afiliações:
- Lebedev Physical Institute of the Russian Academy of Sciences, Troitsk Division
- Moscow State Pedagogical University
- Edição: Volume 87, Nº 12 (2023)
- Páginas: 1819-1822
- Seção: Articles
- URL: https://journals.rcsi.science/0367-6765/article/view/232557
- DOI: https://doi.org/10.31857/S0367676523703131
- EDN: https://elibrary.ru/QIXXOK
- ID: 232557
Citar
Resumo
The properties of titanium foils that have been used for a long time in electron guns of e-beam-pumped excimer lasers have been studied. The tensile strength of these foils did not change when irradiated with e-beam pulses (300 keV) with doses up to 1 GGy. On the surface of Ti foils in contact with a fluorine-containing gas mixture during irradiation by e-beam, peaks corresponding to TiO2, TiN, and TiF were detected by Raman scattering.
Palavras-chave
Sobre autores
P. Sergeev
Lebedev Physical Institute of the Russian Academy of Sciences, Troitsk Division
Autor responsável pela correspondência
Email: sergeevpb@lebedev.ru
Russia, 119991, Moscow
N. Kovalets
Lebedev Physical Institute of the Russian Academy of Sciences, Troitsk Division; Moscow State Pedagogical University
Email: sergeevpb@lebedev.ru
Russia, 119991, Moscow; Russia, 119991, Moscow
E. Kozhina
Lebedev Physical Institute of the Russian Academy of Sciences, Troitsk Division
Email: sergeevpb@lebedev.ru
Russia, 119991, Moscow
S. Bedin
Lebedev Physical Institute of the Russian Academy of Sciences, Troitsk Division; Moscow State Pedagogical University
Email: sergeevpb@lebedev.ru
Russia, 119991, Moscow; Russia, 119991, Moscow
Bibliografia
- Sergeev P.B. // J. Russ. Laser Res. 1993. V. 14. No 4. P. 237.
- Егоров И.С., Кайканов М.И., Ремнев Г.Е. // Изв. Томск. политехн. ун-та. 2013. Т. 322. № 2. С. 91.
- Sergeev P.B., Sergeev A.P. // Изв. вузов. Физика. 2006. № 11. (Приложение). С. 332.
- Сергеев П.Б., Морозов Н.В. // Опт. и спектроск. 2019. Т. 126. № 3. С. 280; Sergeev P.B., Morozov N.V. // Opt. Spectrosс. 2019. V. 126. No. 3. P. 200.
- Комаров Д.В., Коновалов С.В., Жуков Д.В. и др. // Ползуновский вестник. 2021. № 4. С. 129.
- Blanco-Pinzon C., Liu Z., Voisey K. et al. // Corrosion Sci. 2005. V. 47. P. 1251.
- Kiselyova E.S., Sypchenko V.S., Nikitenkov N. et al. // Lett. Materials. 2017. V. 7. No. 2. P. 117.
- Hardcastle F.D. // J. Arkansas Acad. Sci. 2011. V. 65. Art. No. 9.
- Gerasimova Y.V., Krylov A.S., Vtyurin A.N. et al. // Ferroelectrics. 2020. V. 568. P. 185.
- Gerasimova Y.V., Oreshonkov A.S., Laptash N.M. et al. // J. Raman Spectrosc. 2018. V. 49. No. 7. P. 1230.
- Wang Q.Z., Zhou F., Zhou Z.F. et al. // Surf. Coat. Technol. 2012. V. 206. P. 3777.
- Spengler W., Kaiser R., Christensen A.N. et al. // Phys. Rev. B. 1978. V. 17. No. 3. P. 1095.
- Tuschel D. // Spectroscopy. 2019. V. 34. No. 3. P. 10.
- Palliyaguru L., Kulathunga S.U., Jayarathna L.I. et al. // Int. J. Miner. Metall. Mater. 2020. V. 27. No. 6. P. 846.
- Hanaor D.A.H., Sorrell C.C. // J. Mater. Sci. 2011. V. 46. P. 855.
Arquivos suplementares
![](/img/style/loading.gif)