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Nanomaterials by severe plastic deformation: review of historical developments and recent advances

Nanomaterials by severe plastic deformation: review of historical developments and recent advances
Nanomaterials by severe plastic deformation: review of historical developments and recent advances

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 CO 2 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. Abbreviations: ARB: Accumulative Roll-Bonding; BCC: Body-Centered Cubic; DAC: Diamond Anvil Cell; EBSD: Electron Backscatter Diffraction; ECAP: Equal-Channel Angular Pressing (Extrusion); FCC: Face-Centered Cubic; FEM: Finite Element Method; FSP: Friction Stir Processing; HCP: Hexagonal Close-Packed; HPT: High-Pressure Torsion; HPTT: High-Pressure Tube Twisting; MDF: Multi-Directional (-Axial) Forging; NanoSPD: Nanomaterials by Severe Plastic Deformation; SDAC: Shear (Rotational) Diamond Anvil Cell; SEM: Scanning Electron Microscopy; SMAT: Surface Mechanical Attrition Treatment; SPD: Severe Plastic Deformation; TE: Twist Extrusion; TEM: Transmission Electron Microscopy; UFG: Ultrafine Grained.

functional properties, mechanical properties, severe plastic deformation (SPD), surface severe plastic deformation, ultrafine-grained (UFG) materials
163-256
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Edalati, Kaveh
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Bachmaier, Andrea
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Beloshenko, Victor A
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Beygelzimer, Yan
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Botta, Walter José
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Čížek, Jakub
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Divinski, Sergiy
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Faraji, Ghader
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Huot, Jacques
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Wilde, Gerhard
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Zehetbauer, Michael J.
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Zhu, Xinkun
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Edalati, Kaveh, Bachmaier, Andrea, Beloshenko, Victor A, Beygelzimer, Yan, Blank, Vladimir D., Botta, Walter José, Bryła, Krzysztof, Čížek, Jakub, Divinski, Sergiy, Enikeev, Nariman A, Estrin, Yuri, Faraji, Ghader, Figueiredo, Roberto B., Fuji, Masayoshi, Furuta, Tadahiko, Grosdidier, Thierry, Gubicza, Jenő, Hohenwarter, Anton, Horita, Zenji, Huot, Jacques, Ikoma, Yoshifumi, Janeček, Miloš, Kawasaki, Megumi, Král, Petr, Kuramoto, Shigeru, Langdon, Terence G, Leiva, Daniel R., Levitas, Valery I., Mazilkin, Andrey, Mito, Masaki, Miyamoto, Hiroyuki, Nishizaki, Terukazu, Pippan, Reinhard, Popov, Vladimir K., Popova, Elena N, Purcek, Gencaga, Renk, Oliver, Révész, Ádám, Sauvage, Xavier, Sklenicka, Vaclav, Skrotzki, Werner, Straumal, Boris B., Suwas, Satyam, Toth, Laszlo S., Tsuji, Nobuhiro, Valiev, Ruslan Z., Wilde, Gerhard, Zehetbauer, Michael J. and Zhu, Xinkun (2022) Nanomaterials by severe plastic deformation: review of historical developments and recent advances. Materials Research Letters, 10 (4), 163-256. (doi:10.1080/21663831.2022.2029779).

Record type: Review

Abstract

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 CO 2 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. Abbreviations: ARB: Accumulative Roll-Bonding; BCC: Body-Centered Cubic; DAC: Diamond Anvil Cell; EBSD: Electron Backscatter Diffraction; ECAP: Equal-Channel Angular Pressing (Extrusion); FCC: Face-Centered Cubic; FEM: Finite Element Method; FSP: Friction Stir Processing; HCP: Hexagonal Close-Packed; HPT: High-Pressure Torsion; HPTT: High-Pressure Tube Twisting; MDF: Multi-Directional (-Axial) Forging; NanoSPD: Nanomaterials by Severe Plastic Deformation; SDAC: Shear (Rotational) Diamond Anvil Cell; SEM: Scanning Electron Microscopy; SMAT: Surface Mechanical Attrition Treatment; SPD: Severe Plastic Deformation; TE: Twist Extrusion; TEM: Transmission Electron Microscopy; UFG: Ultrafine Grained.

Text
Edalati-MRL-2022 - Accepted Manuscript
Available under License Creative Commons Attribution.
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Accepted/In Press date: 3 December 2021
e-pub ahead of print date: 17 February 2022
Keywords: functional properties, mechanical properties, severe plastic deformation (SPD), surface severe plastic deformation, ultrafine-grained (UFG) materials

Identifiers

Local EPrints ID: 454375
URI: http://eprints.soton.ac.uk/id/eprint/454375
PURE UUID: 026a5492-0932-44d8-857e-5d9c3d512e6c
ORCID for Terence G Langdon: ORCID iD orcid.org/0000-0003-3541-9250

Catalogue record

Date deposited: 08 Feb 2022 17:41
Last modified: 18 Oct 2022 01:37

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Contributors

Author: Kaveh Edalati
Author: Andrea Bachmaier
Author: Victor A Beloshenko
Author: Yan Beygelzimer
Author: Vladimir D. Blank
Author: Walter José Botta
Author: Krzysztof Bryła
Author: Jakub Čížek
Author: Sergiy Divinski
Author: Nariman A Enikeev
Author: Yuri Estrin
Author: Ghader Faraji
Author: Roberto B. Figueiredo
Author: Masayoshi Fuji
Author: Tadahiko Furuta
Author: Thierry Grosdidier
Author: Jenő Gubicza
Author: Anton Hohenwarter
Author: Zenji Horita
Author: Jacques Huot
Author: Yoshifumi Ikoma
Author: Miloš Janeček
Author: Megumi Kawasaki
Author: Petr Král
Author: Shigeru Kuramoto
Author: Daniel R. Leiva
Author: Valery I. Levitas
Author: Andrey Mazilkin
Author: Masaki Mito
Author: Hiroyuki Miyamoto
Author: Terukazu Nishizaki
Author: Reinhard Pippan
Author: Vladimir K. Popov
Author: Elena N Popova
Author: Gencaga Purcek
Author: Oliver Renk
Author: Ádám Révész
Author: Xavier Sauvage
Author: Vaclav Sklenicka
Author: Werner Skrotzki
Author: Boris B. Straumal
Author: Satyam Suwas
Author: Laszlo S. Toth
Author: Nobuhiro Tsuji
Author: Ruslan Z. Valiev
Author: Gerhard Wilde
Author: Michael J. Zehetbauer
Author: Xinkun Zhu

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