Abstract
High-temperature heat exchangers are well known as important components of high-temperature nuclear reactors such as High-Temperature Gas-Cooled Reactors and Fast Breeder Reactors. Perforated plates in heat exchanges are one of the critical parts from a viewpoint of creep-fatigue damage.
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References
Igari, T., Setoguchi, K. and Nomura, S. (1985) Simplified creep analysis of perforated plates under steady creep condition, Nuclear Engineering and Design, 97, 161–166.
Igari, T., Setoguchi, K. and Nomura, S. (1987) Experimental study on macroscopic creep behavior of perforated plates, Trans. SMiRT-9, L4/4, 219–224.
Igari, T., Setoguchi, K., Matsumura, N., Hamaue, Y. and Kawaguchi, K. (1988) Experimental study of macroscopic and local creep behavior of perforated plates, Proc. ICPVT-6, Beijing China, pp. 1093–1100.
Igari, T., Setoguchi, K. and Nomura, S. (1990) Prediction of macroscopic and local creep behavior of perforated plates, Proc. of IUTAM Symposium Creep in Structures IV, Cracow Poland, pp.579–586.
Igari, T., Tokiyoshi, T., Mizokami, Y. and Nomura, S. (1993) Simplified inelastic analysis and creep-fatigue life prediction of perforated plates in elevated temperature, Proc. of 2nd ASME/JSME Nuclear Engineering, ASME Book No. 10343B-1993, pp.865–870.
Igari, T. Tokiyoshi, T. and Y. Mizokami (2000) Prediction of macroscopic and local creep behaviors of perforated plates under primary and secondary creep conditions, J. Japan Society of Mechanical Engineers, 66, to appear.
Murakami, S. and Konishi, K. (1982) An elastic-plastic constitutive equation for transversely isotropic materials and its application to the bending of perforated circular plates, Int. J. Mechanical Science, 24, 763–775.
O’Donnell, W.J. (1976) Perforated plates and shells, Pressure Vessels and Piping : Design and Analysis, A Decade of Progress, 2, ASME, pp.1041–1101.
Porowski, J.S., O’Donnell, W.J., Tanaka, T. and Badlani, M. (1980) Stress and strain concentration in perforated structures under steady creep condition, J.Pressure Vessel Technol., 102, 419–429.
Uragami, K., Nakamura, K., Asada, K. and Kano, T. (1981) Simplified inelastic analysis method of ligament plate, J.High Pressure Institute of Japan, 19, 57–65.
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© 2001 Springer Science+Business Media Dordrecht
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Igari, T., Tokiyoshi, T., Mizokami, Y. (2001). Description of Inelastic Behavior of Perforated Plates Based on Effective Stress Concept. In: Murakami, S., Ohno, N. (eds) IUTAM Symposium on Creep in Structures. Solid Mechanics and its Applications, vol 86. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-9628-2_34
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DOI: https://doi.org/10.1007/978-94-015-9628-2_34
Publisher Name: Springer, Dordrecht
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