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문주현 ( Ju-hyun Mun ),임채림 ( Chae-rim Im ),왕혜린 ( Hye-rin Wang ),양근혁 ( Keun-hyeok Yang ) 한국구조물진단유지관리공학회 2021 한국구조물진단유지관리공학회 논문집 Vol.25 No.6
이 연구의 목적은 천장구조재의 내진성능향상을 위해 개발된 제진장치(seismic dampingㆍisolation unit, 이하 SDI 유닛)의 압축 및 인장하중상태의 하중-변위 관계를 평가하고 축하중 설계를 위한 기초자료를 구축하는데에 있다. 주요변수는 스프링의 유무, 방진고무의 적층수와 스프링과 방진고무의 결합을 위해 설치된 볼트의 프리스트레스력의 크기 그리고 재하방법이다. 실험결과 볼트의 프리스트레스력의 크기가 클수록, 반복하중 보다는 단조하중에서, 그리고 스프링이 있는 SDI 유닛은 하중-변위관계에서 탄성한계점까지의 강성증가 뿐만 아니라 최대 하중 이후의 연성거동에 유리하였다. 결과적으로 에너지 소산능력은 스프링이 있으면서, 3층의 방진고무 및 볼트 항복강도의 10%의 프리스트레스력을 갖는 SDI 유닛에서 가장 높았다. 개발된 SDI 유닛의 인장내력에 대해 JIS B 2704-1(2018) 및 KDS 31 00(2019)의 기준은 단조상태에서는 안전측에서 평가된 반면, 반복하중상태에서 약 10% 높게 평가되었다. The objective of this study is to establish the fundamental design data for axial load-displacement relationship under axial monotonic or cyclic responses of seismic damping·isolation (SDI) units developed for ceiling structures. The main parameters include the installation of a spring, the number of rubber layer, prestress stress of bolts for connector between the spring and rubbers, and loading type. Test results showed that SDI units with a spring in the core and higher prestress stress of bolts tended to be higher stiffness at the ascending branch and more ductile behavior at the descending branch. This trends more notable for the specimens under monotonic load rather than cyclic loads. Consequently, the energy dissipation of SDI unit can be optimally designed with the following conditions: installation of a spring within 3-layer rubbers and prestress applied to the bolts at 10% of their yielding strength . When compared with the experimental tension capacity of the developed SDI units, the predictions by JIS B 2704-1 and KDS 31 00 are conservative under monotonic loading but higher by approximately 10% under cyclic loading.
문주현(Mun, Ju-Hyun),문재성(Mun, Jae-Sung),양근혁(Yang, Keun-Hyeok) 대한건축학회 2013 大韓建築學會論文集 : 構造系 Vol.29 No.8
To evaluate the stress-strain relationship of heavyweight concrete (HWC) and formulate a reasonable model, 26 mixes were prepared under various parameters including water-to-binder ratio, replacement level with natural aggregate for magnetite aggregates, and the replacement level of fly ash. Based on the current test results and existing data, modulus of elasticity, and strains at the peak stress and at 50% of peak stress in the descending branch were formulated as a function of compressive strength and unit weight of concrete. The factor to determine the slopes of ascending and descending branches of the stress-strain curve was solved by numerical analysis and formulated through the parametric study. Test results demonstrated that the stress-strain behavior of concrete is significantly affected by its unit weight as well as its compressive strength. ACI 349-06 provision unconservatively predicts the modulus of elasticity of HWC, and CEB-FIP and EC2 provisions overestimate the strain at peak stress. Meanwhile, the proposed models are in good agreement with test results, giving a consistency with the trends observed in tests.