Twist Extrusion as a Potent Tool for Obtaining Advanced Engineering Materials: A Review-Reference-Cited by-同舟云学术

Twist Extrusion as a Potent Tool for Obtaining Advanced Engineering Materials: A Review

Published:2017-04-10 Issue:8 Volume:19 Page:
ISSN:1438-1656
Container-title:Advanced Engineering Materials
language:en
Short-container-title:Adv Eng Mater

Author:

Beygelzimer Yan¹²,Kulagin Roman³,Estrin Yuri⁴⁵,Toth Laszlo S.⁶⁷,Kim Hyoung Seop⁸⁹,Latypov Marat I.¹⁰

Affiliation:

1. Donetsk Institute for Physics and Engineering named after A.A. Galkin National Academy of Sciences of Ukraine pr. Nauki 46, Kyiv 03028 Ukraine

2. Laboratory of Excellence for Design of Metal Alloys for Light Structures (DAMAS) Université de Lorraine Île du Saulcy Metz cedex 01, F‐57045 France

3. Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT) Hermann‐von‐Helmholtz‐Platz 1, Eggenstein‐Leopoldshafen 76344 Germany

4. Centre for Advanced Hybrid Materials, Department of Materials Science and Engineering Monash University Clayton VIC 3800 Australia

5. Laboratory of Hybrid Nanostructured Materials NUST MISIS Leninsky prospect 4 Moscow 119490 Russia

6. Laboratory of Excellence for Design of Alloy Metals for low‐Mass Structures (DAMAS) Université de Lorraine, Île du Saulcy Metz cedex 01, F‐57045 France

7. Laboratoire d'Etude des Microstructures et de Mécanique des Matériaux ('LEM3') UMR 7239, CNRS / Université de Lorraine F‐57045 Metz France

8. Center for Advanced Aerospace Materials, POSTECH Pohang, 790–784 Republic of Korea

9. Department of Materials Science and Engineering POSTECH Pohang, 790–784 Republic of Korea

10. GT‐CNRS UMI 2958 Georgia Tech Lorraine Metz, 57070 France

Abstract

Twist extrusion (TE) is one of the most popular techniques of severe plastic deformation, aiming at imparting to a material a tailored microstructure and the associated property improvement. The article provides a survey of the literature on the mechanics of TE and the effect it has on the structure, texture, and the attendant properties of various materials, including metals and alloys, powder materials, and polymers. Special emphasis is placed on vortex flow during TE and its hitherto unexplored potential for producing micro‐ and macrostructures that promise superior properties of the materials. In particular, the possibility of creating novel hybrid materials with chiral inner architecture is demonstrated. The survey is concluded by a presentation of examples of practical applications of TE.

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adem.201600873

Reference177 articles.

1. Producing bulk ultrafine-grained materials by severe plastic deformation

2. Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation: Ten Years Later

3. Extreme grain refinement by severe plastic deformation: A wealth of challenging science

4. Review on modified and novel techniques of severe plastic deformation

5. Severe plastic deformation (SPD) processes for metals

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