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Abstract
The stabilization of the 2H martensitic phase in Cu–Zn–Al single crystals with an electron concentration e/a = 1.53 was investigated. This orthorhombic 2H martensite was first induced from the cubic β phase by the direct β → 2H or the indirect β → 18R → 2H transformations. On loading the 2H martensite, a transition without hysteresis is observed at a stress which was denoted σT1. It was found that this stress is associated with a change in the behaviour of the 2H martensite. A high stabilization of the 2H martensite, around 300 K, is only obtained if an ageing is performed at a stress above σT1. Additionally, the stresses of the transformation to another martensitic phase, called 18R2, were found to be constant when the value of σT1 is below the retransformation stress. The 2H martensite and its behaviour on ageing were studied by dilatometry, calorimetry, mechanical testing, optical microscopy and transmission electron microscopy (TEM). Models accounting for the stabilization of the 2H martensite on ageing are proposed.
Acknowledgements
The authors wish to thank Fundación Antorchas and Agencia Nacional de Promoción Científica y Tecnológica of Argentina for financial support.