WELDING RESEARCH NOVEMBER 2016 / WELDING JOURNAL 441-s on test. Journal of Materials Engineering and Performance 24(4): 1441–1451. 6. Goswami, T., and Hanninen, H. 2001. Dwell effects on high temperature fatigue damage mechanisms: Part II. Materials and Design 22(3): 217–236. 7. Karl, J. O. 2013. Thermomechanical fatigue life prediction of notched 304 stainless steel. PhD dissertation, University of Central Florida. 8. Shi, D., Dong, C., Yang, X., Sun, Y., Wang, J., and Liu, J. 2013. Creep and fatigue lifetime analysis of directionally solidified superalloy and its brazed joints based on continuum damage mechanics at elevated temperature. Materials and Design 45: 643–652. 9. Goswami, T. 2004. Development of generic creep-fatigue life prediction models. Materials and Design 25(4): 277–288. 10. Cui, L., and Wang, P. 2014. Two lifetime estimation models for steam turbine components under thermomechanical creep-fatigue loading. International Journal of Fatigue 59: 129–136. 11. Zhu, S. P., Huang, H. Z., Liu, Y., Yuan, R., and He, L. 2012. An efficient life prediction methodology for low cycle fatigue creep based on ductility exhaustion theory. International Journal of Damage Mechanics 22(4): 556–571. 12. Shi, D., Dong, C., Yang, X., Sun, Y., Wang, J., and Liu, J. 2013. Creep and fatigue lifetime analysis of directionally solidified superalloy and its brazed joints based on continuum damage mechanics at elevated temperature. Materials and Design 45: 643–652. 13. Chakherlou, T. N., Aghdam, A. B., Akbari, A., and Saeedi, K. 2010. Analysis of cold expanded fastener holes subjected to short time creep: finite element modelling and fatigue tests. Materials and Design 31(6): 2858–2866. 14. Peng, J., Zhou, C. Y., Dai, Q., and He, X. H. 2015. Dwell fatigue and cycle deformation of CP-Ti at ambient temperature. Materials and Design 71: 1-1. 15. Chakherlou, T. N., and Aghdam, A. B. 2008. An experimental investigation on the effect of short time exposure to elevated temperature on fatigue life of cold expanded fastener holes. Materials and Design 29(8): 1504–1511. 16. Gurumurthy, K., Srinivasan, B., Krishna, P. S., Achary, G. G. S., and Subramanyam, S. V. R. 2014. Creep-fatigue design studies for process reactor components subjected to elevated temperature service as per ASME-NH. Procedia Engineering 86: 327–334. 17. Sheridan, M., Knowles, D., Montgomery, O. 2013. Comparison of R5 and ASME NH Creep-fatigue damage assessment methodologies. ASME 2013 Pressure Vessels and Piping Conference Vol. 1A (PVP2013-97625), doi:10.1115/PVP2013- 97625. 18. Ainsworth, R. A. 2006. R5 procedures for assessing structural integrity of components under creep and creep-fatigue conditions. International Materials Reviews 51(2): 107–126. 19. Knowles, D. M. 2014. R5 high temperature creep-fatigue life assessment for austenitic weldments. Procedia Engineering 86: 315–326. 20. Cross, M., Croft, T. N., McBride, D., Slone, A. K., and Williams, A. J. 2007. Multiphysics modeling and simulation: progress and challenges. NAFEMS World Congress, Vancouver, Canada. Retrieved from www.nafems.org/downloads/NWC07/keynot es/cross.pdf. 21. Yang, Y. P., and Mohr, W. C. 2015. Finite element creep-fatigue analysis of a welded furnace roll for identifying failure root cause. Journal of Materials Engineering and Performance 24(11): 4388–4399. 22. Yang, Y. P., and Mohr, W. C. July 17–21, 2016. Weld residual stress and creep-fatigue analysis of a furnace roll in a continuous hot-dip coating line. Proceedings of 2016 ASME Pressure Vessels and Piping Conference (PVP2016), Paper 63733, Vancouver, BC, Canada. 23. British Stainless Steel Association. Elevated temperature physical properties of stainless steels. Retrieved from www.bssa.org.uk/ topics.php?article=139. 24. Allegheny Technologies Incorporated, ATI 309TM/ATI 309STM/ATI 310TM/ATI310STM, Technical Data Sheet. Retrieved from atimetals.com/Documents/ati_309_309s_31 0_310s_tds_en3_1_v1.pdf. 25. Duraloy Technologies, Material specification MO-RE 1 Alloy, duraloy.com. 26. Harald Pihl AB, Ni-Cr-Co-Mo welding electrode, INCONEL Welding Electrode 117. Retrieved from www.haraldpihl.com/ attachments/ 119_Inconel%20WE%20117.pdf. 27. Simulia. 2014. ABAQUS 6.14 users guide. 28. Yang, Y. P., Brust, F. W., and Oh, J. July 20–24, 2003. Creep behavior of a bimetallic welded joint in a nuclear piping system. ASME 2003 Pressure Vessels and Piping Conference, pp. 35–42, doi:10.1115/ PVP2003-2045, Cleveland, Ohio. 29. Nabarro, F. R. N. Do we have an acceptable model of power-law creep? 2004. Material Science Engineering A 387–389: 659–664. 30. Brust, F. W., Scott, P. M., and Yang, Y. P. 2003. Weld residual stresses and crack growth in bimetallic pipe welds. Proc. the 17th Int. Conf. on Structural Mechanics in Reactor Technology. Prague, Czech Republic. Retrieved from iasmirt.org/transactions/17/G08-1.pdf. 31. Versteeg, H. K., and Malalasekera, W. 2007. An Introduction to Computational Fluid Dynamics (Second Edition). Pearson Education Limited. 32. Retrieved from www.engineeringtoolbox. com/dry-air-properties-d_973.html.
Welding Journal | November 2016
To see the actual publication please follow the link above