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Nanomaterials by severe plastic deformation: review of historical developments and recent advances
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- Kaveh Edalati
- WPI, International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University, Fukuoka, Japan
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- Andrea Bachmaier
- Erich Schmid Institute of Materials Science, Austrian Academy of Sciences, Leoben, Austria
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- Victor A. Beloshenko
- Donetsk Institute for Physics and Engineering named after A.A. Galkin, National Academy of Sciences of Ukraine, Kyiv, Ukraine
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- Yan Beygelzimer
- Donetsk Institute for Physics and Engineering named after A.A. Galkin, National Academy of Sciences of Ukraine, Kyiv, Ukraine
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- Vladimir D. Blank
- Technological Institute for Superhard and Novel Carbon Materials, Moscow, Russia
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- Walter J. Botta
- Departamento de Engenharia de Materiais, Universidade Federal de São Carlos, São Carlos-SP, Brazil
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- Krzysztof Bryła
- Faculty of Mechanical Engineering, Cracow University of Technology, Cracow, Poland
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- Jakub Čížek
- Department of Low Temperature Physics, Faculty of Mathematics and Physics, Charles University in Prague, Prague, Czech Republic
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- Sergiy Divinski
- Institute of Materials Physics, University of Münster, Münster, Germany
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- Nariman A. Enikeev
- Ufa State Aviation Technical University, Ufa, Russia
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- Yuri Estrin
- Department of Materials Science and Engineering, Monash University, Clayton, Australia
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- Ghader Faraji
- School of Mechanical Engineering, College of Engineering, University of Tehran, Tehran, Iran
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- Roberto B. Figueiredo
- Department of Metallurgical and Materials Engineering, Universidade Federal de Minas Gerais, Belo Horizonte, Brazil
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- Masayoshi Fuji
- Advanced Ceramics Research Center, Nagoya Institute of Technology, Tajimi, Japan
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- Tadahiko Furuta
- Data-Driven Material Processing Research-Domain, Toyota Central R&D Laboratories Inc., Nagakute, Japan
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- Thierry Grosdidier
- Laboratoire d’Etude des Microstructures et de Mécanique des Matériaux (LEM3 UMR 7239), Université de Lorraine, Metz, France
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- Jenő Gubicza
- Department of Materials Physics, Eötvös Loránd University, Budapest, Hungary
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- Anton Hohenwarter
- Department of Materials Science, Montanuniversität Leoben, Leoben, Austria
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- Zenji Horita
- WPI, International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University, Fukuoka, Japan
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- Jacques Huot
- Hydrogen Research Institute, Département de Chimie, Biochimie et Physique, Université du Québec à Trois-Rivières, Trois-Rivières, Canada
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- Yoshifumi Ikoma
- Department of Materials Science and Engineering, Kyushu University, Fukuoka, Japan
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- Miloš Janeček
- Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague, Prague, Czech Republic
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- Megumi Kawasaki
- School of Mechanical, Industrial and Manufacturing Engineering, Oregon State University, Corvallis, OR, USA
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- Petr Král
- Academy of Sciences of the Czech Republic, Institute of Physics of Materials, Brno, Czech Repubĺic
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- Shigeru Kuramoto
- College of Engineering, Ibaraki University, Mito, Japan
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- Terence G. Langdon
- Materials Research Group, Department of Mechanical Engineering, University of Southampton, Southampton, UK
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- Daniel R. Leiva
- Departamento de Engenharia de Materiais, Universidade Federal de São Carlos, São Carlos-SP, Brazil
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- Valery I. Levitas
- Departments of Aerospace Engineering and Mechanical Engineering, Iowa State University, Ames, IA, USA
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- Andrey Mazilkin
- Russian Academy of Sciences, Institute of Solid State Physics, Chernogolovka, Russia
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- Masaki Mito
- Graduate School of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan
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- Hiroyuki Miyamoto
- Department of Mechanical Engineering, Doshisha University, Kyoto, Japan
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- Terukazu Nishizaki
- Department of Electrical Engineering, Kyushu Sangyo University, Fukuoka, Japan
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- Reinhard Pippan
- Erich Schmid Institute of Materials Science, Austrian Academy of Sciences, Leoben, Austria
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- Vladimir V. Popov
- M.N. Miheev Institute of Metal Physics, Ural Branch of RAS, Ekaterinburg, Russia
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- Elena N. Popova
- M.N. Miheev Institute of Metal Physics, Ural Branch of RAS, Ekaterinburg, Russia
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- Gencaga Purcek
- Department of Mechanical Engineering, Karadeniz Technical University, Trabzon, Turkey
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- Oliver Renk
- Erich Schmid Institute of Materials Science, Austrian Academy of Sciences, Leoben, Austria
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- Ádám Révész
- Department of Materials Physics, Eötvös Loránd University, Budapest, Hungary
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- Xavier Sauvage
- Groupe de Physique des Matériaux, Normandie University, UNIROUEN, INSA Rouen, CNRS, Rouen, France
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- Vaclav Sklenicka
- Academy of Sciences of the Czech Republic, Institute of Physics of Materials, Brno, Czech Repubĺic
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- Werner Skrotzki
- Institute of Solid State and Materials Physics, Dresden University of Technology, Dresden, Germany
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- Boris B. Straumal
- Russian Academy of Sciences, Institute of Solid State Physics, Chernogolovka, Russia
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- Satyam Suwas
- Department of Materials Engineering, Indian Institute of Science, Bangalore, India
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- Laszlo S. Toth
- Laboratoire d’Etude des Microstructures et de Mécanique des Matériaux (LEM3 UMR 7239), Université de Lorraine, Metz, France
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- Nobuhiro Tsuji
- Department of Materials Science and Engineering, Kyoto University, Kyoto, Japan
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- Ruslan Z. Valiev
- Ufa State Aviation Technical University, Ufa, Russia
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- Gerhard Wilde
- Institute of Materials Physics, University of Münster, Münster, Germany
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- Michael J. Zehetbauer
- Physics of Nanostructured Materials, University of Vienna, Wien, Austria
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- Xinkun Zhu
- Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming, People’s Republic of China
Description
Severe plastic deformation (SPD) is effective in producing bulk ultrafine-grained and nanostructured materials with large densities of lattice defects. This field, also known as NanoSPD, experienced a significant progress within the past two decades. Beside classic SPD methods such as high-pressure torsion, equal-channel angular pressing, accumulative roll-bonding, twist extrusion, and multi-directional forging, various continuous techniques were introduced to produce upscaled samples. Moreover, numerous alloys, glasses, semiconductors, ceramics, polymers, and their composites were processed. The SPD methods were used to synthesize new materials or to stabilize metastable phases with advanced mechanical and functional properties. High strength combined with high ductility, low/room-temperature superplasticity, creep resistance, hydrogen storage, photocatalytic hydrogen production, photocatalytic CO2 conversion, superconductivity, thermoelectric performance, radiation resistance, corrosion resistance, and biocompatibility are some highlighted properties of SPD-processed materials. This article reviews recent advances in the NanoSPD field and provides a brief history regarding its progress from the ancient times to modernity.
International audience
Journal
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- Materials Research Letters
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Materials Research Letters 10 (4), 163-256, 2022-02-17
Informa UK Limited
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Keywords
- Technology
- ddc:600
- severe plastic deformation (spd)
- SDG 7 – Bezahlbare und saubere Energie
- mechanical properties
- MECHANICAL ATTRITION TREATMENT
- HIGH-ENTROPY ALLOY
- ultrafine-grained (UFG) materials
- X-RAY-DIFFRACTION
- CHANNEL ANGULAR EXTRUSION
- HYDROGEN STORAGE PROPERTIES
- SDG 7 - Affordable and Clean Energy
- ROOM-TEMPERATURE SUPERPLASTICITY
- Materials of engineering and construction. Mechanics of materials
- ultrafine-grained (ufg) materials
- functional properties
- 103018 Materialphysik
- 600
- HIGH-PRESSURE-TORSION
- CU-AL ALLOYS
- ULTRAFINE-GRAINED MATERIALS
- 669
- TA401-492
- [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]
- info:eu-repo/classification/ddc/600
- severe plastic deformation (SPD)
- BULK METALLIC GLASSES
- surface severe plastic deformation
- 103018 Materials physics
Details 詳細情報について
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- CRID
- 1360013168843860352
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- ISSN
- 21663831
- http://id.crossref.org/issn/21663831
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- HANDLE
- 11353/10.1660095
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- Article Type
- journal article
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- Data Source
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- Crossref
- KAKEN
- OpenAIRE
