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Article Dans Une Revue Mechanics of Materials Année : 2013

Experimental analysis of Fe-based shape memory alloy behavior under thermomechanical cyclic loading

Résumé

In this work, the specific thermomechanical behavior of Fe-based shape memory alloys (SMAs) was investigated experimentally. Results show that: (i) such behavior is governed by martensitic transformation and/or plasticity, and depends on both testing temperature and applied mechanical loading level; (ii) phase transformation and plasticity yield stresses are interactive and interdependent; (iii) at low temperatures, the stress-induced martensite is activated first, then followed by plasticity activation at a higher loading level, which leads to a coupling of the two mechanisms; (iv) at high temperatures, plasticity activation precedes the possible formation of strain-induced martensite at high stress levels; (v) behavior under thermomechanical cyclic loading shows that the cumulative plasticity significantly affects the martensitic transformation mechanism. This plasticity seems to prevent martensitic variants from forming, and to reduce the shape memory effect. Finally, the stress-temperature diagram was obtained from these experimental results. It summarizes all the possible Fe-based SMA behavior under various thermomechanical loadings.

Dates et versions

hal-00905398 , version 1 (18-11-2013)

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Walid Khalil, Luc Saint-Sulpice, Shabnam Arbab-Chirani, Céline Bouby, Alain Mikolajczak, et al.. Experimental analysis of Fe-based shape memory alloy behavior under thermomechanical cyclic loading. Mechanics of Materials, 2013, 63 (15), pp.1-11. ⟨10.1016/j.mechmat.2013.04.002⟩. ⟨hal-00905398⟩
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