| 2009 №11 (16) | 2009 №11 (01) |
The Paton Welding Journal, 2009, #11, 71-76 pages
Integrated technologies of producing multipurpose layered composite materials
Yu.P. Trykov, L.M. Gurevich, V.G. Shmorgun
Volgograd State Technical University, Volgograd, RFAbstract
The paper describes the experience of many years of development of integrated technologies of manufacturing a new class of structural materials (layered composites) with a unique combination of high-temperature and thermophysical properties, including explosion welding to produce bimetal and multilayer materials in combination with allied technologies (different types of heat treatment and plastic working).
Keywords: integrated technologies, explosion welding, hot initial rolling, heat treatment, layered composites
Received: ??
Published: 28.11.09
References
1. Trykov, Yu.P., Shmorgun, V.G. (1999) Properties and serviceability of layered composites. Volgograd: VolgGTU.
2. Trykov, Yu.P., Shmorgun, V.G., Gurevich, L.M. (2001) Deformation of layered composites. Volgograd: VolgGTU.
3. Trykov, Yu.P., Gurevich, L.M., Shmorgun, V.G. (2004) Layered composites on the base of aluminium and its alloys. Moscow: Metallurgizdat.
4. Trykov, Yu.P., Gurevich, L.M., Arisova, V.N. (2006) Diffusion processes in layered composites. Volgograd: VolgGTU.
5. Shmorgun, V.G. (2001) Evaluation of energy consumption for plastic deformation in wave generation zone during explosion welding. Svarochn. Proizvodstvo, 3, 25-27.
6. Trykov, Yu.P., Gurevich, L.M., Gurulev, D.N. (1999) In fluence of rolling at elevated temperatures on properties of titanium-aluminium composite made by explosion welding. Ibid., 6, 6-10.
7. Trykov, Yu.P., Shmorgun, V.G., Epishin, E.Yu. (2002) Study of the influence of hot and cold rolling on structure and properties of near-weld contact zone of titanium-steel bi metal made by explosion welding. Proizvodstvo Prokata, 8, 35-39.
8. Trykov, Yu.P., Shmorgun, V.G., Slautin, O.V. (2003) Study of the influence of cold rolling on structure and properties of near-weld contact zone of copper-aluminium bimetal made by explosion welding. Ibid., 11, 23-27.
9. Trykov, Yu.P., Gurevich, L.M., Gurulev, D.N. (2000) Diffusion processes in heating of titanium-aluminium composite produced by explosion welding. Svarochn. Proizvodstvo, 12, 19-21.
10. Trykov, Yu.P., Shmorgun, V.G., Epishin, E.Yu. (2004) Diffusion processes in titanium-steel bimetal. Fizika i Khimiya Obrab. Materialov, 4, 85-89.
11. Trykov, Yu.P., Shmorgun, V.G., Slautin, O.V. (2003) Kinetics of growth of diffusion interlayers in copper-aluminium bimetal produced by an integrated technology. Perspekt. Materialy, 3, 83-88.
12. Trykov, Yu.P., Shmorgun, V.G., Rogozin, V.D. et al. (2003) Technology of explosion welding of magnesium-aluminium composite joints. Svarochn. Proizvodstvo, 3, 38-41.
13. Gurevich, L.M., Trykov, Yu.P., Zhorov, A.N. et al. (2008) Structure formation in titanium-aluminium composites in presence of liquid phase. Zhurnal Funktsion. Materialov, 2(4), 153-157.
14. Shmorgun, V.G., Trykov, Yu.P., Abramenko, S.A. et al. (2005) Mechanical properties of layered intermetallic composites of Al-Cu system at elevated temperatures. In: Izvestiya VolgGTU. Series Materials science and strength of structure elements, 12(3), 12-16.
15. Shmorgun, V.G., Trykov, Yu.P., Slautin, O.V. et al. (2005) Layered intermetallic composites of Ti-Fe system with improved heat-resistance properties. Ibid., 16-21.
16. Trykov, Yu.P., Shmorgun, V.G., Pronichev, D.V. (2000) Complex technologies for manufacturing composite heat-protection elements. Svarochn. Proizvodstvo, 6, 40-43.