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    유사동적실험에 의한 기존 R/C 건축물의 프리스트레싱 철골프레임 보강공법의 내진보강효과 = Seismic Strengthening Effects of Existing R/C Buildings Retrofitted with Pre-stressing Steel Frame Based on Pseudo-dynamic Testing

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    https://www.riss.kr/link?id=A108629972

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    This research proposed a seismic strengthening technique of Pre-stressing Steel Frame methodology (PSF) for existing R/C buildings in order to enhance the connection performance and constructability. The PSF system, proposed in this study, is a type of strength-enhancing reinforcement systems to easily increase the ultimate horizontal shear capacity of R/C structures without seismic details. The PSF method increased the seismic reinforcement effect and constructability by separating the reinforcement H-frames into two parts for improving the integration of connections between the existing R/C frame and the strengthening member by using pre-stressing technique. Two test specimens of full-size two-story R/C frames were fabricated based on an existing domestic R/C building without seismic details, and then retrofitted by using the proposed PSF seismic system. Pseudo-dynamic testing was conducted to evaluate seismic rehabilitation effects, and the seismic response characteristics of the proposed system, in terms of the maximum shear force, response story drift, and seismic damage degree compared to the control specimen without strengthening frame. Test results revealed that the proposed PSF reinforcement system effectively enhanced the horizontal shear force, resulting in reduced story drift of R/C buildings under the maximum design earthquake level designated in KDS 41.
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    This research proposed a seismic strengthening technique of Pre-stressing Steel Frame methodology (PSF) for existing R/C buildings in order to enhance the connection performance and constructability. The PSF system, proposed in this study, is a type o...

    This research proposed a seismic strengthening technique of Pre-stressing Steel Frame methodology (PSF) for existing R/C buildings in order to enhance the connection performance and constructability. The PSF system, proposed in this study, is a type of strength-enhancing reinforcement systems to easily increase the ultimate horizontal shear capacity of R/C structures without seismic details. The PSF method increased the seismic reinforcement effect and constructability by separating the reinforcement H-frames into two parts for improving the integration of connections between the existing R/C frame and the strengthening member by using pre-stressing technique. Two test specimens of full-size two-story R/C frames were fabricated based on an existing domestic R/C building without seismic details, and then retrofitted by using the proposed PSF seismic system. Pseudo-dynamic testing was conducted to evaluate seismic rehabilitation effects, and the seismic response characteristics of the proposed system, in terms of the maximum shear force, response story drift, and seismic damage degree compared to the control specimen without strengthening frame. Test results revealed that the proposed PSF reinforcement system effectively enhanced the horizontal shear force, resulting in reduced story drift of R/C buildings under the maximum design earthquake level designated in KDS 41.

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    참고문헌 (Reference)

    1 이강석, "외측프레임 강도증진공법으로 보강된 철근콘크리트 건물의 지진응답특성 및 내진보강 효과" 대한건축학회지회연합회 17 (17): 121-128, 2015

    2 정주성 ; 이강석, "비선형동적해석에 의한 2016년 경주지진에서 지진피해를 받은 R/C 건물의 내진성능에 관한 연구" 한국구조물진단유지관리공학회 22 (22): 137-146, 2018

    3 "Tokyo Soki Kenkyujo Company (TSKC): DA-16A"

    4 Japan Building Disaster Prevention Association, "Standard for damage level classification"

    5 Architectural Institute of Korea, "Site Inspection and Damage Investigation of Buildings by Earthquakes in Gyoungju and Pohang" 347-, 2018

    6 Seismic Strengthening Research Group, "Seismic Strengthening of RC Buildings" Ohmsha Press 230-, 2008

    7 Lee, K. S., "Seismic Capacity Requirementd for Low-Rise R/C Buildings Controlled by Both Shear and Flexure" 8 (8): 75-91, 2010

    8 MTS, "Pseudodynamic testing for 793 controllers" MTS Systems Corporation 2002

    9 Takanashi, K., "Pseudo-dynamic tests on a 2-storey steel frame by a computer-load test apparatus hybrid system" 7 : 225-232, 1980

    10 Federal Emergency Management Agency, "Prestandard and Commentary for Seismic Rehabilitation of Buildings" 500-, 2000

    1 이강석, "외측프레임 강도증진공법으로 보강된 철근콘크리트 건물의 지진응답특성 및 내진보강 효과" 대한건축학회지회연합회 17 (17): 121-128, 2015

    2 정주성 ; 이강석, "비선형동적해석에 의한 2016년 경주지진에서 지진피해를 받은 R/C 건물의 내진성능에 관한 연구" 한국구조물진단유지관리공학회 22 (22): 137-146, 2018

    3 "Tokyo Soki Kenkyujo Company (TSKC): DA-16A"

    4 Japan Building Disaster Prevention Association, "Standard for damage level classification"

    5 Architectural Institute of Korea, "Site Inspection and Damage Investigation of Buildings by Earthquakes in Gyoungju and Pohang" 347-, 2018

    6 Seismic Strengthening Research Group, "Seismic Strengthening of RC Buildings" Ohmsha Press 230-, 2008

    7 Lee, K. S., "Seismic Capacity Requirementd for Low-Rise R/C Buildings Controlled by Both Shear and Flexure" 8 (8): 75-91, 2010

    8 MTS, "Pseudodynamic testing for 793 controllers" MTS Systems Corporation 2002

    9 Takanashi, K., "Pseudo-dynamic tests on a 2-storey steel frame by a computer-load test apparatus hybrid system" 7 : 225-232, 1980

    10 Federal Emergency Management Agency, "Prestandard and Commentary for Seismic Rehabilitation of Buildings" 500-, 2000

    11 Maeda, M., "Post-Earthquake Damage Evaluation for R/C Buildings Based on Residual Seismic Capacity" 1179-, 2004

    12 "Korean Design Standard 41"

    13 "KS B 0801, Test pieces for tension test for metallic materials"

    14 Hilber HM, "Improved numerical dissipation for time integration algorithms in structural dynamics" 5 (5): 283-292, 1977

    15 Japan Building Disaster Prevention Association, "Guideline for Seismic Strengthening of Existing Reinforced Concrete Buildings" 450-, 2017

    16 Ministry of Eduaction, "Guideline for Seismic Evaluation and Rehabilitation of Existing School Buildings in Korea" 108-, 2011

    17 Umemura, H., "Earthquake Resistant Design of Reinforced Concrete Buildings, Accounting for the Dynamic Effects of Earthquakes" Giho-do Publishing Co 650-, 1973

    18 이강석 ; 위정두 ; 김용인 ; 이현호, "1980년대 국내 철근콘크리트 학교건물의 내진 안전성 평가에 관한 연구" 한국구조물진단유지관리공학회 13 (13): 149-158, 2009

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