|
[1].Frank, R. (2004). Designers' guide to EN 1997-1 Eurocode 7: Geotechnical design-General rules (Vol. 17). Thomas Telford.
[2].Liu, G. R., Nguyen-Thoi, T., & Lam, K. Y. (2009). An edge-based smoothed finite element method (ES-FEM) for static, free and forced vibration analyses of solids. Journal of Sound and Vibration, 320(4-5), 1100-1130.
[3].Bobrek, M., & Sokovic, M. (2005). Implementation of APQP-concept in design of QMS. Journal of Materials Processing Technology, 162, 718-724.
[4].N. Politis, S., Colombo, P., Colombo, G., & M. Rekkas, D. (2017). Design of experiments (DoE) in pharmaceutical development. Drug development and industrial pharmacy, 43(6), 889-901.
[5].Darko, A., Chan, A. P. C., Ameyaw, E. E., Owusu, E. K., Pärn, E., & Edwards, D. J. (2019). Review of application of analytic hierarchy process (AHP) in construction. International journal of construction management, 19(5), 436-452.
[6].Nomikos, P., & MacGregor, J. F. (1995). Multivariate SPC charts for monitoring batch processes. Technometrics, 37(1), 41-59.
[7].Moss, D. R. (2004) . Pressure vessel design manual. Elsevier.
[8].Salins, S. S., Mohan, M., & Stephen, C. (2021, June) . Finite Element Investigation on the Performance of Pressure Vessel Subjected to Structural Load. In Annales de Chimie-Science des Matériaux (Vol. 45, No. 3, pp. 201-205) .
[9].Čížek, J., Prochazka, I., Kočík, J., & Keilova, E. (2000) . Positron lifetime study of reactor pressure vessel steels. physica Status Solidi (a) , 178 (2) , 651-662.
[10].Staat, M., Heitzer, M., Lang, H., & Wirtz, K. (2005) . Direct finite element route for design-by-analysis of pressure components. International journal of pressure vessels and piping, 82 (1) , 61-67.
[11].Luxenburger, G., Bockelmann, M., Wolf, P., Hanus, F., Cawelius, R., & Buchholz, J. (2004) . High strength quenched and tempered (Q+ T) steels for pressure vessels. International Journal of Pressure Vessels and Piping, 81 (2) , 159-171.
[12].Gill, S. S. (Ed.) . (2016) . The Stress Analysis of Pressure Vessels and Pressure Vessel Components: International Series of Monographs in Mechanical Engineering (Vol. 3) . Elsevier.
[13].Ghoneim, M. M., & Hammad, F. H. (1997) . Pressure vessel steels: influence of chemical composition on irradiation sensitivity. International journal of pressure vessels and piping, 74 (3) , 189-198.
[14].Zhang, Q., Wang, Z. W., Tang, C. Y., Hu, D. P., Liu, P. Q., & Xia, L. Z. (2012) . Analytical solution of the thermo-mechanical stresses in a multilayered composite pressure vessel considering the influence of the closed ends. International Journal of Pressure Vessels and Piping, 98, 102-110.
[15].Phythian, W. J., & English, C. A. (1993) . Microstructural evolution in reactor pressure vessel steels. Journal of Nuclear materials, 205, 162-177.
[16].Diamantoudis, A. T., & Kermanidis, T. (2005) . Design by analysis versus design by formula of high strength steel pressure vessels: a comparative study. International journal of pressure vessels and piping, 82 (1) , 43-50.
[17].Preiss, R. (2000) . Design-by-analysis of a chemical reactor's head under sustained and thermal loads. International journal of pressure vessels and piping, 77 (6) , 277-288.
[18].Li, H., Zhou, Z., Qu, X., Xie, Y., & Huang, X. (2019) . Evaluation of DBA-L pressure vessel design method by 2D and 3D solid models. Thin-Walled Structures, 144, 106334.
[19].Song, X., Cui, L., Cao, M., Cao, W., Park, Y., & Dempster, W. M. (2014) . A CFD analysis of the dynamics of a direct-operated safety relief valve mounted on a pressure vessel. Energy Conversion and Management, 81, 407-419.
[20].Li, J., Wang, M., Fang, D., Wang, J., Liu, D., Tian, W., ... & Su, G. H. (2021) . CFD simulation on the transient process of coolant mixing phenomenon in reactor pressure vessel. Annals of Nuclear Energy, 153, 108045.
[21].Song, X. G., Wang, L., & Park, Y. C. (2010) . Transient analysis of a spring-loaded pressure safety valve using computational fluid dynamics (CFD) . Journal of pressure vessel technology, 132 (5) .
[22].González-Albuixech, V. F., Qian, G., Sharabi, M., Niffenegger, M., Niceno, B., & Lafferty, N. (2015) . Comparison of PTS analyses of RPVs based on 3D-CFD and RELAP5. Nuclear Engineering and Design, 291, 168-178.
[23].Dong, P., & Brust, F. W. (2000) . Welding residual stresses and effects on fracture in pressure vessel and piping components: a millennium review and beyond. J. Pressure Vessel Technol., 122 (3) , 329-338.
[24].Cerit, M. (2019) . Corrosion pit-induced stress concentration in spherical pressure vessel. Thin-walled structures, 136, 106-112.
[25].Nolte, K. G. (1982, May) . Fracture design considerations based on pressure analysis. In SPE Cotton Valley Symposium. OnePetro.
[26].Niranjana, S. J., Patel, S. V., & Dubey, A. K. (2018, June) . Design and analysis of vertical pressure vessel using ASME code and FEA technique. In IOP Conference Series: Materials Science and Engineering (Vol. 376, No. 1, p. 012135) . IOP Publishing.
[27].Cohen, D., Mantell, S. C., & Zhao, L. (2001) . The effect of fiber volume fraction on filament wound composite pressure vessel strength. Composites Part B: Engineering, 32 (5) , 413-429.
[28].Afshari, M., Arezodar, A. F., Sattarifar, I., & Alavi, A. (2021) . Effective parameters on cladded plate delamination during pressure vessels head manufacturing by FEM and DOE. Turkish Journal of Computer and Mathematics Education (TURCOMAT) , 12 (14) , 1789-1801.
[29].Krueger, R. (2004) . Virtual crack closure technique: History, approach, and applications. Appl. Mech. Rev., 57 (2) , 109-143.
|