T
Terence G. Langdon
Researcher at University of Southampton
Publications - 1199
Citations - 68722
Terence G. Langdon is an academic researcher from University of Southampton. The author has contributed to research in topics: Superplasticity & Severe plastic deformation. The author has an hindex of 117, co-authored 1158 publications receiving 61603 citations. Previous affiliations of Terence G. Langdon include Kyushu University & United States Code.
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Grain refinement and mechanical behavior of a magnesium alloy processed by ECAP
TL;DR: In this paper, a model for grain refinement in magnesium alloys processed by ECAP based on the principles of dynamic recrystallization where new fine grains are formed along the initial boundaries and along twin boundaries is presented.
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The processing of difficult-to-work alloys by ECAP with an emphasis on magnesium alloys.
TL;DR: In this article, finite element modeling is used to explore the procedures for successfully pressing more complex materials, such as hard and difficult-to-work alloys, using a die with a channel angle of 90°, 110° and 135°.
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Factors influencing ductility in the superplastic Zn-22 Pct Al eutectoid
TL;DR: In this article, the maximum attainable ductility in the superplastic Zn-22 pct Al eutectoid depends critically on the imposed strain rate, the testing temperature, and the initial grain size.
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An investigation of ductility and microstructural evolution in an Al−3% Mg alloy with submicron grain size
Jingtao Wang,Zenji Horita,Minoru Furukawa,Minoru Nemoto,Nikolai K. Tsenev,Ruslan Z. Valiev,Yan Ma,Terence G. Langdon +7 more
TL;DR: In this paper, a submicrometer-grained (SMG) Al−3% Mg solid solution alloy, with an initial grain size of ∼0.2 μm, was produced by intense plastic straining.
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The innovation potential of bulk nanostructured materials
Ruslan Z. Valiev,Michael J. Zehetbauer,Yuri Estrin,Heinz Werner Höppel,Yulia Ivanisenko,Horst Hahn,Gerhard Wilde,Hans Jørgen Roven,Xavier Sauvage,Terence G. Langdon +9 more
TL;DR: In this paper, the authors focus on very recent developments demonstrating the potential of using BNM for advanced and functional applications in engineering and medicine, and propose a method of severe plastic deformation.