(사)한국터널지하공간학회
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ISSN : 2233-8292
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Analysis of Dynamic behavior for Underground Structures under Earthquake loading
Abstract
behavior characteristics of underground structures are reported as they are not affected by their dynamic characteristics such as surface structures, but by dynamic characteristics of soil and rock surrounding the underground structures. Therefore, dynamic behavior of surrounding soil and rock dominates the dynamic behavior of the underground structure. The purpose of this paper is to analyze the dynamic response (longitudinal deformation and ovaling deformation) of the underground structure under earthquake loading. The dynamic responses of the underground structures were evaluated with varying earthquake conditions, soil conditions, and structural conditions using conventional closed-form solution of seismic behavior of underground structure. In addition, shaking table tests were conducted to simulate the earthquake loading and the dynamic behavior of the model was analyzed.
- keywords
- 지하구조물, 지진, 축방향 변형, ovaling 변형, 진동대 실험, Underground structure, earthquake, longitudinal deformation, ovaling deformation, shaking table test, Underground structure, earthquake, longitudinal deformation, ovaling deformation, shaking table test
Reference
(2001) 진동대 실험을 이용한 개착식터널의 동적 거동특성에 관한 연구,
(1978) “Damage to rock tunnels from earthquake shaking”,
(2005) Ovaling deformation of circular tunnels under seismic loading an update on seismic design and analysis of underground structures,
(1968) “Stress against underground structural cylinders” Journal of Soil Mechanics and Foundation Div,
(1989) “Similitude for shaking table tests on soil structure fluid model in 1 g gravitational field”,
(1996) Geotechnical Earthquake Engineering,
(1974) “Dynamic behaviour of a subsurface tubular structure” Proceedings of the Fifth Symposium on Earthquake Engineering,
(1981) Earthquake engineering of large underground structures, FHWA/RD-80/ 195
(2000) Seismically induced racking of tunnel linings,
(1992) “Tunneling in seismic zones”,
(1980) Improved design of tunnel supports 1 - simplified analysis for ground- structure interaction in tunneling,
(1960) Technical supplement to the Engineering report for Trans-Bay Tube,
(1987) “Aseismic design of underground structures”,
(1993) Seismic design of tunnels, Parsons Brinckerhoff Quade & Douglas Inc
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