AREA법 및 3차원 정적 유한요소해석을 이용한 온도구배를 받는 줄눈 콘크리트포장의 평가

The concrete slab on the foundation have curling deformation due to temperature gradient. Curling deformation continuously changes the support conditions and deformation responses measured by Falling Weight Deflectometer. In this study, three dimensional FE model using ABAQUS is used to simulate the curling behavior of the concrete slab. And AASHTO's Closed- Form Backcalculation procedure which is called as AREA method is adopted to investigate the effect of changed de formation response on pavement evaluation results. Under ze ro temper ature gradient, backcalculated modulus of subgrade reactions are larger than real modulus of subgrade reaction under subbase. These trends caused by contraction of concrete slab are magnified in higher modulus of subgrade reactions. Under the tempera ture gradient, the curled concrete slab causes higher deformations and lower backcalculated composite modulus of subgrade reaction by same loading conditions. In these FE ana lysis, temperature gradient of 8o C is considered as critical point after which deformations and backcalculated modulus of subgrade reaction are abruptly changed as investigated in field FWD tests. But, these trend is reduced in lower composite modulus of subgrade reaction and higher FWD loading level. The variation of composite modulus of subgrade reaction is not so sensitive to modulus of subbase materials. Higher FWD load makes the abrupt decrease of composite modulus of subgrade reaction gentler. So evaluation re sults for same site could be changed by different loading levels.