PURPOSES : The purpose of this study is to verify the effectiveness of the developed ultra-thin-continuously reinforced concrete partition (UT-CRCP) overlay method through a comparative analysis of the early-behavior of the UT-CRCP with a 100 mm cutting overlay of the existing JPCP.
METHODS : This study aims to minimize the vulnerability of the existing JPCP (joint section behavior) by overlaying the continuous reinforcement form to constrain joint behavior. For this purpose, the early-behavior of the JPCP section was measured and the early-behavior of the UT-CRCP section was compared with that of the cutting overlay of the same section. The testbed was constructed for comparative analysis of the two types of pavements and the early behavior was measured using the pure environmental loads, i.e., situations where there was no traffic load. For the UT-CRCP, which is a comparative test group, UT-CRCP was constructed approximately one year after the JPCP was constructed by milling the top of the existing JPCP by 100 mm.
RESULTS : 1) UT-CRCP was shown to effectively reduce the amount of crack width change on the surface by 17 %, compared to JPCP, by placing reinforcement inside the pavement. 2) The restricting effect of the UT-CRCP was analyzed by comparing the strain generated by the cross-section depth for the two pavement types. As a result, the restricting rate by depth (20, 80, 120, and 280 mm) was 68.4 %, 80.2 %, 89.2 %, and 26.7 %, respectively. 3) We reviewed the comprehensive gauge restricting rate at depths of 80 mm and 120 mm (80.2 % and 89.2 %, respectively) and the absolute value of behavior that is located at the ±20 mm of the interface of JPCP and UT-CRCP. Thus, it was possible to estimate that both layers of pavements exhibit the same behavior (tied) at the interface between the two pavement layers.
CONCLUSIONS : In this study, the early behavior of the BCO concept UT-CRCP overlay technique was analyzed and quantitatively presented to overcome the limitations of JPCP with relatively weak point behavior and to increase the commonality of aged concrete pavement to the performance of the new pavement.
PURPOSES : The purpose of this study is to analyse the longitudinal steel strain and stress of continuously reinforced concrete pavement(CRCP) with longitudinal and transverse direction at early age using stress dependent strain analysis method. METHODS : To measure the longitudinal steel strain, 9-electrical resistance and self-temperature compensation gauges were installed to CRCP test section (thickness = 250mm, steel ratio = 0.7%) and continuously measured 10min. intervals during 30days. In order to properly analyze the steel stress first, temperature compensation process has been conducted. Secondly, measured steel strains were divided into stress dependent strain (elastic strain) and stress independent strain (thermal strain) and then stress dependent strain was applied to stress calculation of longitudinal steels. RESULTS: Steel strains were successfully measured during 30days. To verify the accuracy of temperature compensation process, measured coefficient of thermal expansion(COTE,11.46×10-6m/m/℃) of longitudinal steel before paving was compared with that of unrestrained steel. Max. steel stress in the transverse direction shows about 266MPa at 23days after placement. CONCLUSIONS: Steel stresses in the longitudinal and transverse direction have been evaluated. In longitudinal direction, steel stress from the crack was rapidly reduced from 183MPa at crack to 18MPa from 600mm apart the crack. From this observation, stress effective length can be identified as within 600mm apart from the crack. In transverse direction, max. stress point was located near the center of pavement width and stress level(266MPa) is about 66% of yield stress of steel
콘크리트포장에 초기균열을 일으키는 중요한 인자 중 하나는 콘크리트 내부의 초기온도이다. 따라서 콘크리트포장의 초기균열 발생원인을 연구하기 위해서는 초기온도를 계측하여 분석하는 일이 필요하다. 본 논문에서는 초기균열이 발생하는 슬래브 장소와 초기균열의 발생시간이 초기온도패턴에 어떤 영향을 받는지를 검증하였고 더불어, 줄눈부에서 발생하는 균열의 발생시점과 시공시간과의 관계도 알아보았다. 본 논문을 위해서 "중부내륙고속도로 여주-충주간 제 1공구 시험도로 건설공사구간 STATION 1+400~1+700" 지점에서 시험시공이 이루어졌으며, 시공 후 72시간 동안 i-Button(온도계측센서)을 이용하여 온도계측을 시행하였으며, 초기균열의 거동은 Demec gauge를 사용하였으며, 초기균열 및 줄눈부 균열은 육안으로 확인하였다. 초기온도패턴과 초기균열의 분석 결과, 콘크리트의 초기온도패턴은 슬래브에 초기균열이 발생하는 위치와 시각에 영향을 주는 것으로 나타났다 초기균열균열은 온도낙차폭이 가장 큰 슬래브에서 발생하였으며, 그 시각은 슬래브의 온도가 급강하하는 새벽이었다. 또한, 콘크리트 슬래브의 거동이 인근 줄눈부에 발생한 초기균열에 따라 영향을 받으며. 줄눈부에 발생한 균열의 발생시기가 서로 다를 경우에 균열의 거동이 달라질 수 있다는 가능성이 제시되었다. 그 외에도, 오전에 시공한 슬래브에서의 균열 발생률이 오후에 시공한것보다 더 큰 것으로 나타났으며, 균열의 발생 간격이 큰 균열이 그렇지 않은 균열보다 더 큰 균열틈을 보였다.