Molecular-dynamics of a 2D model of the shape memory effect |
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Authors: | Email author" target="_blank">O?KastnerEmail author |
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Institution: | (1) Department of Thermodynamics, Technical University of Berlin, Fasanenstraße 90, 10623 Berlin, Germany |
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Abstract: | A 2-dimensional molecular-dynamic model is presented for the investigation of crystalline phase transitions. The model is based on potential functions of the Lennard-Jones type. By use of two types of particles a stable square crystalline lattice may be created. It may transform into sheared variants, which represent martensitic phases. It turns out that the phase stability is dependent on the temperature of the body. In numerical experiments it is shown that the austenite appears to be stable at high temperature, while martensite is stable at lower temperature. The present article - being the first part of a work on the subject - explains the used model in detail. In several examples it is shown, how the model is capable to cover temperature-induced transitions between austenite and martensite. It turns out that the presented molecular dynamic experiments exhibit important characteristics as they are known from shape memory alloys.Received: 15 April 2002, Accepted: 18 March 2003, Published online: 27 June 2003
Dedicated to Professor Ingo Müller on the occasion of his 65th birthday |
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Keywords: | Molecular dynamic simulation solid-solid phase transition martensitic transformation shape memory alloys |
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