1. Hydro-thermal-mechanical analysis of thermal fatigue in a mixing tee;Chapuliot;Nuclear Engineering and Design,2005
2. Fatigue relevance of stratified flows in pipes: a parametric study;Cizelj;Nuclear Engineering and Design,2011
3. Dahlberg, M., Nilsson, K.-F., Taylor, N., Faidy, C., Wilke, U., Chapuliot, S., Kalkhof, D., Bretherton, I., Church, M., Solin, J., Catalano, J., 2007. Development of a European procedure for assessment of high cycle thermal fatigue in light water reactors: Final report of the NESC-Thermal Fatigue Project. Technical Report EUR 22763 EN, Joint Research Centre, The Netherlands.
4. Evaluation of an unsteady heat transfer coefficient in a mixing area: the FATHER experiment associated to the specific “Coefh” sensor;Fontes,2009
5. Numerical methods for the prediction of thermal fatigue due to turbulent mixing;Hannink;Nucl. Eng. Des.,2011