지지력이 큰 하부지반에 구조물의 하중을 전달하기 위한 방안으로 말뚝기초가 대부분 적용되고 있다. 이 연구에서는 접합부에 보강되는 철근량에 따라 반복하중 하에서 프리캐스트공법과 철근 및 속채움 콘크리트로 말뚝머리부를 보강한 철근콘크리트 말뚝(HPC)과 기초접합부 거동을 실험을 통해 평가하였다. 철근량에 변화에 따라 제작된 두 종류의 접합부 실험체의 균열패턴과 파괴거동은 유사한 수준으로 평가되었다. 철근량 1.77배 증가에 기인하여 BS-H25 실험체는 BS-H19 실험체에 비해 최고하중은 약 1.47배 증가하였지만 연성비는 정가력시 76%, 부가력시 70% 수준을 나타내었다. 강성감소는 접합부 철근 항복 이후 BS-H19 실험체와 BS-H25 실험체는 정가력시 초기강성의 약 66% ~ 71% 수준으로 부가력시 54% ~ 57% 수준으로 감소되었고 BS-H25 실험체가 평균 13% 높은 강성값을 나타내었다. 극한하중 상태에서의 BS-H19와 BS-H25 실험체의 누적 에너지 소산량은 사용하중 상태에 비해 약 5.5배 및 6.6배 큰 값으로 측정되었다.
Due to the economic growth and development of construction technology, a role of foundation to resist heavy loads has been increased. In this present study to improve the structural performance of reinforced concrete pile, the precast HPC pile reinforced with rebar and filling concrete was developed and the strength of pile was predicted based on the limit state design method. The safety of HPC pile strength was evaluated by comparing with the design values. The geometry of HPC pile is a decagon cross section with a maximum width of 500 mm and a minimum width of 475 mm, and the hollow head of pile thickness is 70 mm. The inner area of the hollow head part was made as the square ribbed shape presented in the limit state design code in order to achieve horizontal shear strength between pile concrete and filling concrete. From the shear test results, it was found that the stable shear strength were secured without abrupt failure until maximum load stage despite the shear cracks was found. Shear strength is 135% and 119% higher than that of design value calculated from limit state design code. The driving test results of HPC pile according to the presence of additional reinforcement showed the outstanding crack resistance against impact loads condition. From the bending test results the flexural load between PHC pile and HPC pile was 1.51 times and 1.48 times higher than that of the design flexural load of conventional PHC pile.
This study investigated the shear behavior of hollowed-head precast reinforced concrete(HPC) pile. In order to evaluate shear strength of the pile, two specimens were manufactured and shear strength test was performed based on KS F 4306 Standard. From the test result it was found that the flexural and inclined cracks were appeared and crack widths were controlled within the shear span up to maximum loads as well as did not appear the abrupt fracture. The average maximum shear load was measured 823.6 kN.