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고강도 콘크리트를 적용한 얇은 RC 판부재의 정적 강도 안전성 평가
황훈희,박성용,Hwang, Hoon-Hee,Park, Sung-Yong 한국안전학회 2017 한국안전학회지 Vol.32 No.5
Structural safety evaluation for static strength of thin plate RC member with high strength concrete is conducted in this study. Static strengths were predicted and compared with the experimental values. Predicted values were calculated by the evaluation formula based on the punching shear behavior and the yield line theory which can appear in the plate members. Static load tests were carried out for the specimens with high strength concrete and the test results were compared with the required performance in design. The comparison results show that the specimens with high strength concrete have sufficient structural safety for flexural and punching shear performance required in design. High strength concrete specimens exhibited excellent strength despite their small thickness. The range of concrete strengths applied in this study was about 60 MPa to 100 MPa.
UHPC 바닥판 증기양생 현장이음부의 최소철근겹침이음길이
황훈희 ( Hoon Hee Hwang ),박성용 ( Sung Yong Park ) 한국복합재료학회 2013 Composites research Vol.26 No.2
이 연구에서는 이음부가 초고성능콘크리트 교량 바닥판의 정적 거동에 미치는 영향을 실험적으로 규명하고, 이음부 철근의 최소겹침이음길이를 제안하였다. 총 6개의 실험부재를 제작하였으며 4점 휨 실험에 의하여 성능을 평가하였다. 이음부는 UHPC의 높은 부착특성으로 인하여 단순하면서도 매우 효율적인 구조가 될 것으로 기대되는 철근겹침이음을 대상으로 하였다. 실험결과로부터 이음부의 설치에 의한 UHPC의 인장기여도 감소에 따라 약 30% 수준의 휨강도 감소가 발생되는 것으로 측정되었고, 150 mm 이상의 철근겹침이음길이를 확보하면 연속된 철근을 사용한 경우와 거의 유사한 강도와 연성을 확보할 수 있는 것으로 나타났다. The static test was performed to verify the effect of the joint in the UHPC bridge deck slab and the minimum lap-spliced length was presented. A total of six test members was fabricated to estimate the static behavior of the steam curing UHPC bridge deck slab joint by the four points bending test method. The lap-spliced joint type was expected to be not only simple but also efficient in UHPC structure because of the high bond stress of UHPC. Test results show that the decrease of maximum flexural strength was about 30% and the minimum lap-spliced length which behaved similar to the continued reinforcement in strength and ductility was 150 mm.