Electronic Scientific Journal
 
Diagnostics, Resource and Mechanics 
         of materials and structures
Рус/Eng  

 

advanced search

IssuesAbout the JournalAuthorContactsNewsRegistration

All Issues

All Issues
 
2024 Issue 2
 
2024 Issue 1
 
2023 Issue 6
 
2023 Issue 5
 
2023 Issue 4
 
2023 Issue 3
 
2023 Issue 2
 
2023 Issue 1
 
2022 Issue 6
 
2022 Issue 5
 
2022 Issue 4
 
2022 Issue 3
 
2022 Issue 2
 
2022 Issue 1
 
2021 Issue 6
 
2021 Issue 5
 
2021 Issue 4
 
2021 Issue 3
 
2021 Issue 2
 
2021 Issue 1
 
2020 Issue 6
 
2020 Issue 5
 
2020 Issue 4
 
2020 Issue 3
 
2020 Issue 2
 
2020 Issue 1
 
2019 Issue 6
 
2019 Issue 5
 
2019 Issue 4
 
2019 Issue 3
 
2019 Issue 2
 
2019 Issue 1
 
2018 Issue 6
 
2018 Issue 5
 
2018 Issue 4
 
2018 Issue 3
 
2018 Issue 2
 
2018 Issue 1
 
2017 Issue 6
 
2017 Issue 5
 
2017 Issue 4
 
2017 Issue 3
 
2017 Issue 2
 
2017 Issue 1
 
2016 Issue 6
 
2016 Issue 5
 
2016 Issue 4
 
2016 Issue 3
 
2016 Issue 2
 
2016 Issue 1
 
2015 Issue 6
 
2015 Issue 5
 
2015 Issue 4
 
2015 Issue 3
 
2015 Issue 2
 
2015 Issue 1

 

 

 

 

 

A. V. Nesterenko, V. I. Novozhonov, A. G. Zalazinsky

EFFECT OF DEFORMATION PROCESSING ON THE PROPERTIES AND STRUCTURE OF TITANIUM OBTAINED BY PLASTIC DEFORMATION OF HYDROGEN-ALLOYED TITANIUM SPONGE

DOI: 10.17804/2410-9908.2015.3.098-108

The effect of hydrogen alloying of titanium sponge on the properties of compacted preforms is experimentally investigated at 170 °C, 325 °C under a pressure 1000 of MPa. The influence of the density of the preforms and the presence of hydrogen in them on the force of direct extrusion at a temperature of 600 ºC, the density and mechanical properties of extruded bars has been revealed.

The results show the expediency of using the effect of hydrogen plasticization in manufacturing quasi-monolithic preforms from noncompact raw materials in the form of titanium sponge by plastic forming.

Keywords: titanium sponge, compaction, thermohydrogen alloying of titanium

References:

1. Hartman A.D., Gerdemann S.J., Hansen J.S. Producing Lower-Cost Titanium for Automotive Applications. JOM, 1998, vol. 50, no. 9, pp. 16–19.
2. Obodovsky E.S., Laptev A.M. Hot extrusion of titanium sponge. Poroshkovaya metallurgiya, 1987, no. 4, p. 19. (In Russian).
3. Zalazinsky A.G., Novozhonov V.I., Kolmykov V. L. et al. Effect of technological factors on the properties of dense briquettes and products made of titanium sponge. Metally, 1997, no. 6, p. 28. (In Russian).
4. Sokolov M.V., Stepanenko V.I., Zalazinsky A.G., Lisin A. L. Modeling of briquette compacting and extrusion of rods made of titanium sponge. Izvestiya vuzov. Tsvetnaya metallurgiya, 2000, no. 4, p. 64. (In Russian).
5. Dring K. Method for production of titanium welding wire. WO/2011/049465, 2011.
6. Dring K., Gulbrandsen-Dahl S., Jensrud O., Kolbu A. Method for production of alloyed titanium welding wire. WO/2012/127426, 2012.
7. Sun Z.M., Wang Q., Hashimoto H., Tada S., Abe T. Synthesis and consolidation of TiAl by MA–PDS process from sponge–Ti and chip–Al. Intermetallics, 2003, vol. 11, pp. 63–69.
8. Zadra M. Ficile mechanical alloying of titanium sponge. Materials Science&Engineering, 2014, vol. A590, pp. 281–288.
9. Zwicker U., Schleicher Н. Titanium Alloys Deformabiliti Improvement Technigue during Hot Pressure Shaping. Patent 2892742 (USA), 1959.
10.Aksenov Yu.A, Bashkin I.O., Kolmogorov V.L. et al. Effect of hydrogen on the plasticity and strain resistance of commercial titanium BT10 at temperatures below 750 oC. Fizika metallov i metallovedenie, 1989, vol. 67, iss. 5, pp. 993-999. (In Russian).
11. Murzinova M.A., Salishchev G.A., Afonichev D.D. et al. Effect of hydrogen concentration on the transformation of the microstructure of the VT10 alloy under hot deformation. Metally, 2000, no. 6, p. 73. (In Russian)
12. Gidridy titana. V kn.: Gidridy metallov [Titanium hydrides. In : Metal Hydrides, ed.: Mueller W. M., Blackledge J. P., Libowits G G.]. New York, Academic Press, 1968, Russian translation: Moscow, Atomizdat, 1973, p. 278. (In Russian)
13. Smirnov S.V., Nesterenko A.V., Bykov V.N., Mikhailov V.G. Deformation properties of sintered tungsten-based heavy alloys. Russian metallurgy (Metally), 2007, vol. 2007, no. 6, pp. 506-513. 

14. Smirnov S.V., Nesterenko A.V., Shveikin V.P. Deformability of molybdenum during the production of thin-wall pipes. Russian metallurgy (Metally), 2008, vol. 2008, no. 5, pp. 425-433.


PDF      

Article reference

Nesterenko A. V., Novozhonov V. I., Zalazinsky A. G. Effect of Deformation Processing on the Properties and Structure of Titanium Obtained by Plastic Deformation of Hydrogen-Alloyed Titanium Sponge // Diagnostics, Resource and Mechanics of materials and structures. - 2015. - Iss. 3. - P. 98-108. -
DOI: 10.17804/2410-9908.2015.3.098-108. -
URL: http://eng.dream-journal.org/issues/content/article_9.html
(accessed: 05/22/2024).

 

impact factor
RSCI 0.42

 

MRDMS 2024
Google Scholar


NLR

 

Founder:  Institute of Engineering Science, Russian Academy of Sciences (Ural Branch)
Chief Editor:  S.V. Smirnov
When citing, it is obligatory that you refer to the Journal. Reproduction in electronic or other periodicals without permission of the Editorial Board is prohibited. The materials published in the Journal may be used only for non-profit purposes.
Contacts  
 
Home E-mail 0+
 

ISSN 2410-9908 Registration SMI Эл № ФС77-57355 dated March 24, 2014 © IMACH of RAS (UB) 2014-2024, www.imach.uran.ru