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NTIS 바로가기한국구조물진단유지관리공학회 논문집 = Journal of the Korea Institute for Structural Maintenance and Inspection, v.27 no.2, 2023년, pp.33 - 41
김성완 (부산대학교 지진방재연구센터) , 장성진 (부산대학교 지진방재연구센터) , 박동욱 (부산대학교 지진방재연구센터) , 전법규 (부산대학교 지진방재연구센터)
The application of seismic separation joints that can improve the deformation capacity of piping is an effective way to improve seismic performance. Seismic separation joints capable of axial expansion and bending deformation are installed where deformation is expected and used for the purpose of sa...
Gantes, C. J., and Melissianos, V. E. (2016), Evaluation of Seismic?Protection Methods for Buried Fuel Pipelines Subjected to Fault?Rupture, Frontiers in Built Environment, 2(26), 34.
O'Rourke, T. D., Stewart, H. E., Gowdy, T. E., and Pease, J.W.?(1991), Lifeline and geotechnical aspects of the 1989 Loma Prieta?Earthquake, In Proceedings of the 2nd International Conference?on Recent Advances in Geotechnical Earthquake Engineering and?Soil Dynamics, St. Louis, Missouri, 1601-1612.
O'Rourke, T. D., and Palmer, M. C. (1996), Earthquake?Performance of Gas Transmission Pipelines, Earthquake Spectra,?12(3), 493-527.
Chouw, N. (1995), Effect of the earthquake on 17th of January?1995 on Kobe, In Proceedings of the D-A-CH meeting of the?German, Austrian and Swiss Society for Earthquake Engineering?and Structural Dynamics, University of Graz, Austria, 135-169.
Tsai, J. S., Jou, L. D., and Lin, S. H. (2000), Damage to Buried?Water Supply Pipelines in the Chichi (Taiwan) Earthquake and a?Preliminary Evaluation of Seismic Resistance of Pipe Joints,?Journal of the Chinese Institute of Engineers, 23(4), 395-408.
Miyajima, M. (2012), Damage analysis of water supply facilities in?the 2011 great east Japan earthquake and tsunami, In Proceedings?of the 15th World Conference on Earthquake Engineering?(15WCEE), 32, 25346-25354.
Edkins, D. J. Orense, R. P., and Henry, R. S. (2021), Seismic?Simulation Testing of PVC-U Pipe and Proposed Design?Prediction Tool for Joint Performance, Journal of Pipeline Systems?Engineering and Practice, 12(2), 04021007.
Germoso, C. Gonzalez, O., and Chinesta, F. (2021), Seismic?Vulnerability Assessment of Buried Pipelines: A 3D Parametric?Study, Soil Dynamics and Earthquake Engineering, 143, 106627.
ISO 16134:2020 (2020), Earthquake-Resistant and Subsidence-Resistant Design of Ductile Iron Pipelines, International?Organization for Standardization (ISO), Geneva, Switzerland.
Lv, Y., Liang, L. R., Li, Y. W., Chen, Y., and Chouw, N. (2021a),?Experimental and Finite-element Study of Buried Pipes Connected?by Bellow Joint Under Axial Cyclic Loading, Journal of Pipelines?Systems Engineering and Practice, 12(1), 04020069.
Lv, Y., Liang, L. R., Li, Y. W., Chen, Y., and Chouw, N. (2021b),?Experimental and Finite-element Studies of Buried Pipes?Connected by a Bellow Joint Under Cyclic Shear Loading, Journal?of Pipelines Systems Engineering and Practice, 12(4), 04021057.
FEMA 461 (2007), Interim Testing Protocols for Determining the?Seismic Performance Characteristics of Structural and Nonstructural?Components, Federal Emergency Management Agency (FEMA),?Washington D.C., USA.
Kim, S. W., Jeon, B. G., Cheung, J. H., and Kim, S. D. (2019),?Low-cycle Fatigue Behaviors of the Steel Pipe Tee of a Nuclear?Power Plant Using Image Signals, Journal of The Korea Institute?for Structural Maintenance and Inspection, 23(6), 77-83.
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