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다국어 초록 (Multilingual Abstract)

A suspension bridge is a type of bridge in which the beam is suspended by load-bearing cables. There are two classifications: the self-anchored suspension bridge has the main cable anchored to the bridge girders, and the earth-anchored suspension bridge has the main cable anchored to a large anchorage. Although a suspension bridge is structurally safe, it is prone to be damaged by various actions such as hurricanes, tsunamis and terrorist incidents because its cables are exposed. If damage to a cable eventually leads to the cable rupture, the bridge may collapse. To avoid these accidents, studies on the dynamic behavior of cable bridges due to the cable rupture have been carried out. Design codes specify that the calculated DAF (dynamic amplification factor) should not exceed a certain value. However, it has been difficult to determine DAFs effectively from dynamic analysis, and thus no systematic approach has been suggested. The current study provides a guideline to determine DAFs reliably from the dynamic analysis results and summarizes the results by applying the method to an earth-anchored suspension bridge. In the study, DAFs were calculated at the location of four structural parts, girders, pylons, main cable and hangers, with variations in the rupture time.

참고문헌 (Reference)

1 이승호, "레이놀즈수에 따른 이순신대교 거더에 작용하는 공기력의 변화" 대한토목학회 33 (33): 93-100, 2013

2 Post-Tensioning Institute, "Recommendations for Stay Cable Design. Testing and Installation" PTI 2001

3 Giuliani L, "Dynamic analysis for structural robustness evaluation" IABMAS 2008

4 Ruiz-Teran AM, "Dynamic amplification factors in cable-stayed structures" 300 (300): 197-216, 2007

5 KSCE, "Design guidelines of cable supported bridges"

6 Baek HS, "Construction Technology of the Yi sun shin Bridge’s Pylons with Slip-form Method" 59 (59): 23-32, 2011

7 Starossek U, "Collapse resistance and robustness of bridge" IABMAS 2008

8 Wolff M, "Cable-loss analyses and collapse behavior of cable-stayed bridges" IABMAS 2010

9 Hyttinen E, "Cable stayed bridges effect, of breaking of a cable" 1994

10 SETRA, "CIP recommendations on cable stays"

1 이승호, "레이놀즈수에 따른 이순신대교 거더에 작용하는 공기력의 변화" 대한토목학회 33 (33): 93-100, 2013

2 Post-Tensioning Institute, "Recommendations for Stay Cable Design. Testing and Installation" PTI 2001

3 Giuliani L, "Dynamic analysis for structural robustness evaluation" IABMAS 2008

4 Ruiz-Teran AM, "Dynamic amplification factors in cable-stayed structures" 300 (300): 197-216, 2007

5 KSCE, "Design guidelines of cable supported bridges"

6 Baek HS, "Construction Technology of the Yi sun shin Bridge’s Pylons with Slip-form Method" 59 (59): 23-32, 2011

7 Starossek U, "Collapse resistance and robustness of bridge" IABMAS 2008

8 Wolff M, "Cable-loss analyses and collapse behavior of cable-stayed bridges" IABMAS 2010

9 Hyttinen E, "Cable stayed bridges effect, of breaking of a cable" 1994

10 SETRA, "CIP recommendations on cable stays"

11 Nam HS, "Analysis on the long span cable stayed bridge about the cable replacement and failure" 605-610, 2004

12 Yoo GM, "Analysis of dynamic amplification factor of cable-stayed bridges due to cable rupture" Inha University 2012

13 Park YS, "(A)Study on the dynamic amplification factor for the evaluation of cable loss effect in a cable-stayed bridge" Seoul National University 2007

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