@misc{lalpoor_the_interaction_2014, 
author={Lalpoor, M., Miroux, A., Mendis, C.L., Hort, N., Offerman, S.E.},
title={The interaction of precipitation and deformation in a binary Mg–Ca alloy at elevated temperatures},
year={2014},
howpublished = {journal article},
doi = {https://doi.org/10.1016/j.msea.2014.04.095},
abstract = {The effect of pre-deformation on precipitation hardening response as well as the work-hardening behavior of a binary Mg–Ca alloy are investigated. Our results show that application of 5% pre-deformation increases the precipitation hardening response of the material and decreases the annealing time by 50%. The dislocations introduced during the pre-deformation process act as predominant nucleation sites and result in a higher number of precipitates of smaller size. During the thermomechanical treatments, the work hardening behavior is altered by the state of the precipitates, namely, under-aged, peak-aged and over-aged. After the elastic–plastic transition, under-aged and peak-aged materials show a continuously decreasing work-hardening rate, while the over-aged material has an initial constant work-hardening rate. The absolute values of the work hardening rate are far less sensitive to the precipitation stage compared to aluminum alloys; a fact that explains the low work hardening capacity of magnesium compared to aluminum.},
note = {Online available at: \url{https://doi.org/10.1016/j.msea.2014.04.095} (DOI). Lalpoor, M.; Miroux, A.; Mendis, C.; Hort, N.; Offerman, S.: The interaction of precipitation and deformation in a binary Mg–Ca alloy at elevated temperatures. Materials Science and Engineering  A. 2014. vol. 609, 116-124. DOI: 10.1016/j.msea.2014.04.095}}