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The Innovation Potential of Bulk Nanostructured Materials

Authors:	R. Z. Valiev M. J. Zehetbauer Y. Estrin H. W. Höppel Y. Ivanisenko H. Hahn G. Wilde H. J. Roven X. Sauvage T. G. Langdon

Affiliation:	1. Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, 12 K. Marx str., Ufa 450000 Russia;2. Physics of Nanostructured Materials, Faculty of Physics, University of Vienna, Boltzmanngasse 5, A‐1090 Wien, Austria;3. ARC Centre of Excellence in Design in Light Alloys, Department of Materials Engineering, Monash University, Clayton, Vic. 3800, Australia;4. Institute I: Allgemeine Werkstoffeigenschaften, Department of Materials Science and Engineering, Universit?t Erlangen‐Nürnberg, Martensstrasse 5, 91058 Erlangen, Germany;5. Forschungszentrum Karlsruhe, Institut für Nanotechnologie (INT), Postfach 36 40, 76021 Karlsruhe, Germany;6. Institut für Materialphysik, University of Münster, Wilhelm‐Klemm‐Str. 10, D‐48149 Münster, Germany;7. Department of Materials Science and Engineering, Norwegian University of Science and Technology, N‐7491 Trondheim, Norway;8. Groupe de Physique des Matériaux ‐UMR CNRS 6634, Institute of Medical Research, Université de Rouen, 76801 Saint‐Etienne‐du‐Rouvray, France;9. Materials Research Group, School of Engineering Sciences, University of Southampton, Southampton SO17 1BJ, U.K

Abstract:	The innovation potential is high for bulk nanostructured materials (BNM) produced by methods of severe plastic deformation and accordingly this report focuses on very recent developments demonstrating the potential of using BNM for advanced and functional applications in engineering and medicine.

Keywords:	Nanostructured materials Severe plastic deformation Ultrafine grained materials

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