Source: https://lettersonmaterials.com/en/Readers/Article.aspx?aid=846
Timestamp: 2019-04-23 08:03:50+00:00

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Abstract. Uniformity of deformation in bonding zone during pressure welding of titanium alloy to stainless steel with nickel interlayer was studied. It was shown that in the case of flat surfaces the stagnant zones in the center of the samples are formed and formation of bonds takes place non-uniformly: edges of the samples are seized, while in the center the welded surfaces seizing is weak. This phenomenon is due to the fact that as a result of interdiffusion and forming of chemical bonds the friction force increases dramatically, resulting in a deformation localized on periphery of the samples. Formation of stagnant zones and non-uniform bonding reduce the quality of welding. For delocalization of deformation along welded surfaces the modification of nickel surface by creation of periodic system of small projections was proposed. The effect of such modification on the uniformity of deformation at pressure welding was simulated. It was shown small cavities are formed in the contact zone when the surfaces of connected materials to be modified by projections. Forming for τ = 35 min at width to height ratio of the projections S/h = 2/5 on nickel surfaces provides the most uniform distribution of deformation and complete elimination of residual cavities on bonded surfaces titanium alloy – nickel and stainless steel – nickel.
1. V. R. Ryabov, D. M. Rabkin, R. S. Kurochka, L. G. Strizhevskaya. Welding of dissimilar metals and alloys. M. Mashin. (1984) 239 p. (in Russian) [В. Р. Рябов, Д. М. Рабкин, Р. С. Курочка, Л. Г. Стрижевская. Сварка разнородных металлов и сплавов. М. Машиностроение. (1984) 239 с.].
2. A. V.Lyushinskiy. Diffusion welding of dissimilar materials: a manual for students in higher education. Academy. (2006) 239 p. (in Russian) [А. В. Люшинский. Диффузионная сварка разнородных материалов: учебное пособие для студентов высших учебных заведений. Академия. (2006) 208 с.].
3. E. S. Karakozov. Welding of metals pressure. M. Mashin. (1986) 280 p. (in Russian) [Э. С. Каракозов. Сварка металлов давлением. М. Машиностроение. (1986) 280 с.].
4. M. V. Storozhev, E. A. Popov. Theory of plastic metal working. M. Mashin. (1977) 423 p. (in Russian) [М. В. Сторожев, Е. А. Попов. Теория обработки металлов давлением. М. Машиностроение. (1977) 423 с.].
5. O. A. Kaybyshev, A. A. Markelov. Izvestia - Ferrous Metallurgy. 7, 119-121 (1973). (in Russian) [О. А. Кайбышев, А. А. Маркелов. Известия ВУЗов. Черная металлургия. 7, 119-121 (1973).].
6. E. V. Valitova, A. Kh. Akhunova, V. A. Valitov, S. V. Dmitriev, R. Ya. Lutfullin, M. Kh. Mukhametrakhimov. Letters on Materials. 4 (3), 190-194 (2014). (in Russian) [Э. В. Валитова, А. Х. Ахунова, В. А. Валитов, С. В. Дмитриев, Р. Я. Лутфуллин, М. Х. Мухаметрахимов. Письма о материалах. 4 (3), 190-194 (2014).
7. R. G. Khazgaliev, M. Kh. Mukhametrakhimov, R. R. Mulyukov, R. Ya. Lutfullin Journal Perspektivnye materialy. 529-534 (2011). (in Russian) [Р. Г. Хазгалиев, М. Х. Мухаметрахимов, Р. Р. Мулюков, Р. Я. Лутфуллин. Перспективные материалы. 529-534 (2011).].
8. R. G. Khazgaliev, A. R. Khalikov, S. V. Dmitriev. In: Collection of works of Russian scientific and practical conference of young scientists and students, ed by S. B. Sapozhkov, E. V. Politsinskiy, E. G. Soboleva, T. S. Katruk, E. G. Fisochenko. Yurga Institute of Technology. Tomsk. (2014) 167-172 p. (in Russian) [Р. Г. Хазгалиев, А. Р. Халиков, С. В. Дмитриев. Сборник трудов Всероссийской научно-практической конференции молодых ученых, аспирантов и студентов. Юргинский технологический институт. Под ред. С. Б. Сапожков. Томск. Издательство Томского политехнического университета (2014) 167-172 c.].

References: V. 
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