Abstract
During the past decade, fabrication of bulk nanostructured metals and alloys using severe plastic deformation (SPD) has been evolving as a rapidly advancing direction of nanomaterials science and technology aimed at developing materials with new mechanical and functional properties for advanced applications. The principle of these developments is based on grain refinement down to the nanoscale level via various SPD techniques. This paper is focused on investigation and development of new SPD processing routes enabling fabrication of fully dense bulk nanostructured metals and alloys with a grain size of 40–50 nm and smaller, namely, SPD-consolidation of powders, including nanostructured ones, as well as SPD-induced nanocrystallization of amorphous alloys. We also consider microstructural features of SPD-processed materials that are responsible for enhancement of their properties.
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Valiev RZ, Islamgaliev RK, Alexandrov IV (2000) Prog Mater Sci 45:103
Langdon TG, Furukawa M, Nemoto M, Horita Z (2000) Jom 52 4:30
Zhu YT, Langdon TG, Mishra RS, Semiatin SL, Saran MJ, Lowe TC (eds) (2002), Ultrafine Grained Materials II (The Minerals, Metals and Materials Society, Warrendale, PA)
Valiev RZ, Estrin Y, Horita Z, Langdon TG, Zehetbauer MJ, Zhu YT (2006) Jom 58 4:33
Zhu YT, Langdon TG, Valiev RZ, Semiatin SL, Shin DH, Lowe TC (eds) (2004), Ultrafine Grained Materials III (The Minerals, Metals and Materials Society, Warrendale, PA)
Zehetbauer M (ed) (2003) Adv Eng Mater 5 (Special Issue on Nanomaterials by Severe Plastic Deformation (SPD)
Valiev RZ (2004) Nat Mater 3:511
Morris DG (1998) Mechanical Behaviour of Nanostructured Materials (Trans Tech., Uetikon-Zürich, Switzerland)
Koch CC (2003) Scripta Mater 49:657
Valiev RZ, Langdon TG (2006) Prog Mater Sci 51:881
Horita Z, Fujinami T, Nemoto M, Langdon TG (2000) Metall Mater Trans 31A:691
Zhu YT, Langdon TG (2004) Jom 56 10:58
Valiev RZ, Alexandrov IV, Lowe TC, Zhu YT (2002) J Mater Res 17:5
Horita Z, Ohashi K, Fujita T, Kaneko K, Langdon TG (2005) Adv Mater 17:1599
Wang Y, Chen M, Zhou F, Ma E (2002) Nature 419:912
Valiev RZ, Sergueeva AV, Mukherjee AK (2003) Scripta Mater 49:669
Ma E (2003) Scripta Mater 49:663
Wang YM, Ma E (2004) Acta Mater 52:1699
Ma E (2006) Jom 58 4:49
Zhang X, Wang H, Scattergood RO, Narayan J, Koch CC, Sergueeva AV, Mukherjee AK (2002) Acta Mater 50:4823
Mughrabi H, Höppel HW (2003) Z Metallkd 94:1079
Park YS, Chung KH, Kim NJ, Lavernia EJ (2004) Mater Sci Eng A374:211
Lu L, Shen Y, Chen X, Qian L, Lu K (2004) Science 304:422
Ma E, Wang YM, Lu QH, Sui ML, Lu L, Lu K (2004) Appl Phys Lett 85:4932
Wu X, Tao n, Hong Y, Lu J, Lu k (2005) Scripta Mater. 52:547
Ma Y, Jin JE, Lee Yk (2005) Scripta Mater 52:1311
Sergueeva AV, Song C, Valiev RZ, Mukherjee AK (2003) Mat Sci Eng A339:159
Pushin VG, Valiev RZ (2003) Solid State Phenom 94:12
Waitz T, Kazykhanov V, Karnthaler HP (2004) Acta Mater 52:137
Pushin VG, Gunderov DV, Kourov NI, Yurchenko LI, Prokofiev EA, Stolyarov VV, Zhu YT, Valiev RZ (2004), In Zhu YT, Langdon TG, Valiev RZ, Semiatin SL, Shin DH, Lowe TC (eds) Ultrafine-grained materials III, The Minerals, Metals & Materials Society, Warrendale, PA, p 481
Stolyarov VV, Prokofiev EA, Prokoshkin SD, Dobatkin SV, Trubitsyna IB, Khmelevskaya IY, Pushin VG, Valiev RZ (2005) Phys Metals Metallog 100:608
Valiev RZ, Kozlov EV, Ivanov Yu F, Lian J, Nazarov AA, Baudelet B, (1994) Acta Metall Mater 42:2467
Nieh TG, Wadsworth J, Sherby OD (1997) Superplasticity in Metals and Ceramics (Cambridge Univ. Press, Cambridge
Van Swygenhoven H (2002) Science 296:66
Yamakov V, Wolf D, Phillpot SR, Mukherjee AK, Gleiter H (2002) Nat Mater 1:1
Schiøtz J, Jacobsen KW (2003) Science 301:1357
Budrovic Z, Van Swygenhoven H, Derlet PM, Van Petegem P, Schmitt B (2004) Science 304:237
Van Swygenhoven H, Derlet PM, Frøseth AG (2004) Nat Mater 3:399
Zelin MG, Krasilnikov NA, Valiev RZ, Grabski MW, Yang HS,Mukherjee AK (1994) .Acta Metall Mater 42:19
Hahn H, Padmanabhan KA (1997) Phil Mag B76:559
Chen M, Ma E, Hemker KJ, Sheng H, Wang Y, Cheng X (2003) Science 300:1275
Liao XZ, Zhou F, Lavernia EJ, He DW, Zhu YT (2003) Appl Phys Lett 83:5062
Kolobov YU R, Grabovetskaya GP, Ivanov MB, Zhilyaev AP, Valiev RZ (2001) Scripta Mater 44:873
Würschum R, Herth S, Brossmann U (2003) Adv Eng Mater 5:365
Mcfadden SX, Mishra RS, Valiev RZ, Zhilyaev AP, Mukherjee AK (1999) Nature 398:684
Höppel HW, Zhou ZM, Mughrabi H, Valiev RZ (2002) Phil Mag A82:1781
Vinogradov A, Hashimoto S (2003) Adv Eng Mater 5:351
Valiev RZ, Krasilnikov NA, Tsenev NK (1991) Mater Sci Eng A137:35
Valiev RZ, Korznikov AV, Mulyukov RR (1993) Mater Sci Eng A186:141
Valiev RZ, Mishra RS, Grosa J, Mukherjee AK (1996) Scripta Mater 34:1443
Valiev RZ (2005) Mater Sci Forum 503–504:3
Valiev RZ (2003) Adv Eng Mat 5:296
Wilde G, Boucharat N, Dinda GP, Rösner H, Valiev RZ (2005) Mater Sci Forum 503–504:425
Valiev RZ, Pushin VG, Gunderov DV, Popov AG (2004) Doklady RAN 398:1
Huang JY, Zhu YT, Liao XZ, Valiev RZ (2004) Phil Mag Lett 84:183
Gleiter H (1989) Prof Mater Sci 33:223
Acknowledgements
The present paper was supported in part by the NIS-IPP Program of DOE (USA) and through grants of the Ministry for Education and Science of the Russian Federation. Cooperation with co-authors mentioned in references is gratefully acknowledged as well.
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Valiev, R.Z. The new trends in fabrication of bulk nanostructured materials by SPD processing. J Mater Sci 42, 1483–1490 (2007). https://doi.org/10.1007/s10853-006-1281-3
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DOI: https://doi.org/10.1007/s10853-006-1281-3