作者
Kaveh Edalati, Andrea Bachmaier, Victor A Beloshenko, Yan Beygelzimer, Vladimir D Blank, Walter J Botta, Krzysztof Bryła, Jakub Čížek, Sergiy Divinski, Nariman A Enikeev, Yuri Estrin, Ghader Faraji, Roberto B Figueiredo, Masayoshi Fuji, Tadahiko Furuta, Thierry Grosdidier, Jenő Gubicza, Anton Hohenwarter, Zenji Horita, Jacques Huot, Yoshifumi Ikoma, Miloš Janeček, Megumi Kawasaki, Petr Král, Shigeru Kuramoto, Terence G Langdon, Daniel R Leiva, Valery I Levitas, Andrey Mazilkin, Masaki Mito, Hiroyuki Miyamoto, Terukazu Nishizaki, Reinhard Pippan, Vladimir V Popov, Elena N Popova, Gencaga Purcek, Oliver Renk, Ádám Révész, Xavier Sauvage, Vaclav Sklenicka, Werner Skrotzki, Boris B Straumal, Satyam Suwas, Laszlo S Toth, Nobuhiro Tsuji, Ruslan Z Valiev, Gerhard Wilde, Michael J Zehetbauer, Xinkun Zhu
发表日期
2022/4/3
来源
Materials Research Letters
卷号
10
期号
4
页码范围
163-256
出版商
Taylor & Francis
简介
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 …
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K Edalati, A Bachmaier, VA Beloshenko, Y Beygelzimer… - Materials Research Letters, 2022