1 |
Rosinski, S.T., 2000, Proceedings of the International Conference on Fatigue of Reactor Components, 31.7, Napa, California, Ed. EPRI.
|
2 |
Metzner, K.J., Wilke, U., 2005, "European THERFAT project-thermal fatigue evaluation of piping system "Tee"- connections," Nuclear Engineering and Design, Vol.235 pp.473-484.
DOI
ScienceOn
|
3 |
Dahlberg, M., et. al., 2005, "NESC Thermal Fatigue Failure Case Database," European Commission Joint Research Center.
|
4 |
Dahlberg, M., et. al., 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," EUR 22763 EN, European Commission Joint Research Center, Luxembourg.
|
5 |
ANSYS, Inc., 2010, ANSYS CFX-Solver Theory Guide and ANSYS CFX-Solver Manager User's Guide, Canonsburg, PA.
|
6 |
ANSYS, Inc., 2010, Theory Reference for ANSYS and ANSYS Workbench Release 13.0, Canonsburg, PA.
|
7 |
Bannantine, J.A., Comer, J.J., Handrock, J.L., 1989, Fundamentals of Metal Fatigue Analysis, Prentice Hall, New Jersey.
|
8 |
Jhung, M.J., 2012, "Fatigue analysis of a reactor pressure vessel for SMART," Nuclear Engineering and Technology, Vol.44, No.6, pp.683-688.
DOI
ScienceOn
|
9 |
ASME, 2004, Boiler and Pressure Vessel Code, Section III, Appendix I Design Stress Intensity Values, Allowable Stresses, Material Properties, and Design Fatigue Curves, The American Society of Mechanical Engineers.
|