Nanostructuring of metals by severe plastic deformation for advanced properties
10.1038/nmat1180
Crossref journal-article
Springer Science and Business Media LLC
Nature Materials (297)
Bibliography

Valiev, R. (2004). Nanostructuring of metals by severe plastic deformation for advanced properties. Nature Materials, 3(8), 511–516.

Authors 1
  1. Ruslan Valiev (first)
References 49 Referenced 1,294
  1. Gleiter, H. in Proc. 2nd Riso Int. Symp. Metallurgy and Materials Science (eds Hansen, N., Horswell, A., Leffers, T. & Lidholt, H.) 15–21 (Riso National Laboratory, Roskilde, Denmark, 1981). / Proc. 2nd Riso Int. Symp. Metallurgy and Materials Science by H Gleiter (1981)
  2. Gleiter, H. Nanocrystalline materials. Prog. Mater. Sci. 33, 223–330 (1989). (10.1016/0079-6425(89)90001-7) / Prog. Mater. Sci. by H Gleiter (1989)
  3. Weertman, J.R. Mechanical properties of nanocrystalline materials. Mater. Sci. Eng. A 166, 161–171 (1993). (10.1016/0921-5093(93)90319-A) / Mater. Sci. Eng. A by JR Weertman (1993)
  4. Koch, C.C. Optimization of strength and ductility in nanocrystalline and ultrafine grained metals. Scripta Mater. 49, 657–662 (2003). (10.1016/S1359-6462(03)00394-4) / Scripta Mater. by CC Koch (2003)
  5. Morris, D.G. Mechanical Behaviour of Nanostructured Materials (Trans Tech, Uetikon-Zürich, 1998). / Mechanical Behaviour of Nanostructured Materials by DG Morris (1998)
  6. Valiev, R.Z., Alexandrov, I.V., Zhu, Y.T. & Lowe, T.C. Paradox of strength and ductility in metals processed by severe plastic deformation. J. Mater. Res. 17, 5–8 (2002). (10.1557/JMR.2002.0002) / J. Mater. Res. by RZ Valiev (2002)
  7. Valiev, R. Nanomaterial advantage. Nature 419, 887–889 (2002). (10.1038/419887a) / Nature by R Valiev (2002)
  8. Wang, Y., Chen, M., Zhou, F. & Ma, E. High tensile ductility in a nanostructured metal. Nature 419, 912–915 (2002). (10.1038/nature01133) / Nature by Y Wang (2002)
  9. Wang, Y.M. & Ma, E. Three strategies to achieve uniform tensile deformation in a nanostructured metal. Acta Mater. 52, 1699–1709 (2004). (10.1016/j.actamat.2003.12.022) / Acta Mater. by YM Wang (2004)
  10. Valiev, R.Z., Islamgaliev, R.K. & Alexandrov, I.V. Bulk nanostructured materials from severe plastic deformation. Prog. Mater. Sci. 45, 103–189 (2000). (10.1016/S0079-6425(99)00007-9) / Prog. Mater. Sci. by RZ Valiev (2000)
  11. Zhu, Y.T. et al. (eds) Ultrafine Grained Materials II (Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 2002); Ultrafine Grained Materials III (Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 2004). (10.1002/9781118804537) / Ultrafine Grained Materials II by YT Zhu (2002)
  12. Zehetbauer, M. (ed.) Adv. Eng. Mater. 5 (special issue on nanomaterials by severe plastic deformation (SPD)) (2003). (10.1002/3527602461)
  13. Valiev, R.Z., Korznikov, A.V. & Mulyukov, R.R. Structure and properties of ultrafine-grained materials produced by severe plastic deformation. Mater. Sci. Eng. A 186, 141–148 (1993). (10.1016/0921-5093(93)90717-S) / Mater. Sci. Eng. A by RZ Valiev (1993)
  14. Valiev, R.Z., Krasilnikov, N.A. & Tsenev, N.K. Plastic deformation of alloys with submicro-grained structure. Mater. Sci. Eng. A 137, 35–40 (1991). (10.1016/0921-5093(91)90316-F) / Mater. Sci. Eng. A by RZ Valiev (1991)
  15. Zhilyaev, A.P. et al. Microhardness and microstructural evolution in pure nickel during high-pressure torsion. Scripta Mater. 44, 2753–2758 (2001). (10.1016/S1359-6462(01)00955-1) / Scripta Mater. by AP Zhilyaev (2001)
  16. Segal, V.M., Reznikov, V.I., Drobyshevskiy, A.E. & Kopylov, V.I. Plastic working of metals by simple shear. Russian Metall. (Metally) 1, 99–105 (1981). / Russian Metall. (Metally) by VM Segal (1981)
  17. Langdon, T.G., Furukawa, M., Nemoto, M. & Horita, Z. Using equal-channel angular pressing for refining grain size. JOM 52, 30–33 (2000). (10.1007/s11837-000-0128-7) / JOM by TG Langdon (2000)
  18. Zhernakov, V.S. et al. A numerical modelling and investigations of flow stress and grain refinement during equal-channel angular pressing. Scripta Mater. 44, 1765–1769 (2001). (10.1016/S1359-6462(01)00796-5) / Scripta Mater. by VS Zhernakov (2001)
  19. Stolyarov, V.V. et al. Influence of ECAP routes on the microstructure and properties of pure Ti. Mater. Sci. Eng. A 299, 59–67 (2001). (10.1016/S0921-5093(00)01411-8) / Mater. Sci. Eng. A by VV Stolyarov (2001)
  20. Zhilyaev, A.P. et al. Orientation imaging microscopy of ultrafine-grained nickel. Scripta Mater. 46, 575–580 (2002). (10.1016/S1359-6462(02)00018-0) / Scripta Mater. by AP Zhilyaev (2002)
  21. Tóth, L.S. Texture evolution in severe plastic deformation by equal channel angular extrusion. Adv. Eng. Mater. 5, 308–316 (2003). (10.1002/adem.200310084) / Adv. Eng. Mater. by LS Tóth (2003)
  22. Valiev, R.Z., Sergueeva, A.V. & Mukherjee, A.K. The effect of annealing on tensile deformation behaviour of nanostructured SPD titanium. Scripta Mater. 49, 669–674 (2003). (10.1016/S1359-6462(03)00395-6) / Scripta Mater. by RZ Valiev (2003)
  23. Nazarov, A.A., Romanov, A.E. & Valiev, R.Z. On the structure, stress fields and energy of nonequilibrium grain boundaries. Acta Metall. Mater. 41, 1033–1040 (1993). (10.1016/0956-7151(93)90152-I) / Acta Metall. Mater. by AA Nazarov (1993)
  24. Zhang, X. et al. Studies of deformation mechanisms in ultra-fine-grained and nanostructured Zn. Acta Mater. 50, 4823–4830 (2002). (10.1016/S1359-6454(02)00349-X) / Acta Mater. by X Zhang (2002)
  25. Mughrabi, H., Höppel, H.W., Kautz, M. & Valiev, R.Z. Annealing treatments to enhance thermal and mechanical stablity of ultrafine-grained metals produced by severe plastic deformation. Z. Metallkunde 94, 1079–1083 (2003). (10.3139/146.031079) / Z. Metallkunde by H Mughrabi (2003)
  26. Park, Y.S., Chung, K.H., Kim, N.J. & Lavernia, E.J. Microstructural investigation of nanocrystalline bulk Al–Mg alloy fabricated by cryomilling and extrusion. Mater. Sci. Eng. A 374, 211–216 (2004). (10.1016/j.msea.2004.02.013) / Mater. Sci. Eng. A by YS Park (2004)
  27. Valiev, R.Z. et al. Deformation behaviour of ultra-fine-grained copper. Acta Metall. Mater. 42, 2467–2475 (1994). (10.1016/0956-7151(94)90326-3) / Acta Metall. Mater. by RZ Valiev (1994)
  28. Nie, T.G., Wadsworth, J. & Sherby, O.D. Superplasticity in Metals and Ceramics (Cambridge Univ. Press, Cambridge, 1997). (10.1017/CBO9780511525230) / Superplasticity in Metals and Ceramics by TG Nie (1997)
  29. Van Swygenhoven, H. Grain boundaries and dislocations. Science 296, 66–67 (2002). (10.1126/science.1071040) / Science by H Van Swygenhoven (2002)
  30. Yamakov, V., Wolf, D., Phillpot, S.R., Mukherjee, A.K. & Gleiter, H. Dislocation processes in the deformation of nanocrystalline aluminium by molecular-dynamics simulation. Nature Mater. 1, 45–49 (2002). (10.1038/nmat700) / Nature Mater. by V Yamakov (2002)
  31. Schiøtz, J. & Jacobsen, K.W. A maximum in the strength of nanocrystalline copper. Science 301, 1357–1359 (2003). (10.1126/science.1086636) / Science by J Schiøtz (2003)
  32. Budrovic, Z., Van Swygenhoven, H., Derlet, P.M., Van Petegem, P. & Schmitt, B. Plastic deformation with reversible peak broadening in nanocrystalline nickel. Science 304, 273–276 (2004). (10.1126/science.1095071) / Science by Z Budrovic (2004)
  33. Van Swygenhoven, H., Derlet, P.M. & Frøseth, A.G. Stacking fault energies and slip in nanocrystalline metals. Nature Mater. 3, 399–403 (2004). (10.1038/nmat1136) / Nature Mater. by H Van Swygenhoven (2004)
  34. Zelin, M.G. et al. On the microstructural aspects of the nonhomogeneity of superplastic deformation at the level of grain groups. Acta Metall. Mater. 42, 119–126 (1994). (10.1016/0956-7151(94)90054-X) / Acta Metall. Mater. by MG Zelin (1994)
  35. Hahn, H. & Padmanaban, K.A. A model for the deformation of nanocrystalline materials. Phil. Mag. B 76, 559 (1997). (10.1080/01418639708241122) / Phil. Mag. B by H Hahn (1997)
  36. Chen, M. et al. Deformation twinning in nanocrystalline aluminum. Science 300, 1275–1277 (2003). (10.1126/science.1083727) / Science by M Chen (2003)
  37. Liao, X.Z. et al. Deformation mechanism in nanocrystalline Al: Partial dislocation slip. Appl. Phys. Lett. 83, 632–634 (2003). (10.1063/1.1594836) / Appl. Phys. Lett. by XZ Liao (2003)
  38. Kolobov, Yu. R. et al. Grain boundary diffusion characteristics of nanostructured nickel. Scripta Mater. 44, 873–878 (2001). (10.1016/S1359-6462(00)00699-0) / Scripta Mater. by R Kolobov, Yu. (2001)
  39. Würschum, R., Herth, S. & Brossmann, U. Diffusion in nanocrystalline metals and alloys—a status report. Adv. Eng. Mater. 5, 365–372 (2003). (10.1002/adem.200310079) / Adv. Eng. Mater. by R Würschum (2003)
  40. McFadden, S.X., Mishra, R.S., Valiev, R.Z., Zhilyaev, A.P. & Mukherjee, A.K. Low-temperature superplasticity in nanostructured nickel and metal alloys. Nature 398, 684–686 (1999). (10.1038/19486) / Nature by SX McFadden (1999)
  41. Höppel, H.W., Zhou, Z.M., Mughrabi, H. & Valiev, R.Z. Microstructural study of the parameters governing coarsening and cyclic softening in fatigued ultrafine-grained copper. Phil. Mag. A 82, 1781–1794 (2002). (10.1080/01418610208235689) / Phil. Mag. A by HW Höppel (2002)
  42. Vinogradov, A. & Hashimoto, S. Fatigue of severe deformed metals. Adv. Eng. Mater. 5, 351–358 (2003). (10.1002/adem.200310078) / Adv. Eng. Mater. by A Vinogradov (2003)
  43. Pushin, V.G. et al. in Ultrafine Grained Materials III (eds Zhu, Y.T. et al.) 481–486 (Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 2004). / Ultrafine Grained Materials III by VG Pushin (2004)
  44. Lowe, T.C. & Zhu, Y.T. Commercialization of nanostructured metals produced by severe plastic deformation processing. Adv. Eng. Mater. 5, 373–378 (2003). (10.1002/adem.200310076) / Adv. Eng. Mater. by TC Lowe (2003)
  45. Wang, Y., Ma, E., Valiev, R.Z. & Zhu, Y.T. Tough nanostructured metals at cryogenic temperatures. Adv. Mater. 16, 328–331 (2004). (10.1002/adma.200305679) / Adv. Mater. by Y Wang (2004)
  46. Gell, M. Applying nanostructured materials to future gas turbine engines. JOM 46, 30–34 (1994). (10.1007/BF03222605) / JOM by M Gell (1994)
  47. Xu, C., Furukawa, M., Horita, Z. & Langdon, T.G. Using ECAP to achieve grain refinement, precipitate fragmentation and high strain rate superplasticity in a spray-cast aluminium alloy. Acta Mater. 51, 6139–6149 (2003). (10.1016/S1359-6454(03)00433-6) / Acta Mater. by C Xu (2003)
  48. Brunette, D.M., Tengvall, P., Textor, M. & Thomen, P. Titanium in Medicine (Springer, Berlin and Heidelberg, 2001). (10.1007/978-3-642-56486-4) / Titanium in Medicine by DM Brunette (2001)
  49. Zhu, Y.T. et al. Ultrafine-grained titanium for medical implants. US Patent 6,399,215 (2000).
Dates
Type When
Created 20 years, 8 months ago (Dec. 22, 2004, 4:22 a.m.)
Deposited 3 years, 1 month ago (July 6, 2022, 2:46 p.m.)
Indexed 34 minutes ago (Aug. 29, 2025, 3:28 a.m.)
Issued 21 years ago (Aug. 1, 2004)
Published 21 years ago (Aug. 1, 2004)
Published Print 21 years ago (Aug. 1, 2004)
Funders 0

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@article{Valiev_2004, title={Nanostructuring of metals by severe plastic deformation for advanced properties}, volume={3}, ISSN={1476-4660}, url={http://dx.doi.org/10.1038/nmat1180}, DOI={10.1038/nmat1180}, number={8}, journal={Nature Materials}, publisher={Springer Science and Business Media LLC}, author={Valiev, Ruslan}, year={2004}, month=aug, pages={511–516} }