철근콘크리트는 가장 널리 사용되는 건축자재로 최근 노후 시설물이 증가하면서 노후 구조물에 대한 안전성 검토가 매우 중요한 문제로 대두되고 있다. 본 연구에서는 대표적인 열화 인자인 동결융해와 철근부식 그리고 동결융해와 철근부식의 복합적 열화에 따른 RC 휨 부재의 거동을 실험적으로 평가하였다. 4개의 철근콘크리트 휨 부재를 제작하였으며 각 열화 인자에 따른 RC 휨 부재의 거동을 평가하기 위해 4점 재하법을 이용하여 정적실험을 수행하였다. 동결융해는 총 300 사이클의 급속동 결융해실험을 수행하였으며, 부식은 전위차부식촉진실험을 수행하였다. 실험 결과, 동결융해로 인해 콘크리트의 압축강도가 12% 감소하였으며 RC 보 부재의 상부 압축부의 파쇄 범위가 증가하였고 최대강도가 6% 감소하였다. 철근부식으로 인해 RC 휨 부 재의 항복강도가 1.2%, 최대강도가 7% 감소하였으며, 복합열화로 인해 RC 휨 부재의 항복강도가 2.4%, 최대강도가 9% 감소하 였다.

PURPOSES : The adhesive bonding strength of the grid between asphalt pavements is critical in pavement performance. The study is to compare and evaluate the interlayered bonding strength of asphalt mixture specimens with fiber-glass grid (FG) reinforcement and different tack coating materials based on the test results of the shear bonding test. METHODS : Asphalt mixtures were molded with FG reinforcement using various tack coating materials namely RSC4 and D/B coat. The adhesive shear-bond strength was measured by inducing a monotonic shear loadnig rate of 5 mm/min at 20℃. RESULTS : As expected, the asphalt mixture with non-reinforced FG exhibited the highest adhesive shear-bond strength, followed by that of the FG with D/B coating. The ranking order of superiority is as follows: Control (RSC4) > D/B+FG > RSC4+FG. CONCLUSIONS : The results of this experimental study indicate that FG with RSC4 and D/B tack coats can be successfully used in asphalt concrete overlay construction with superior field performance. Based on the test results and literature review, the field bonding strength should exceed 300kPa in grid reinforced asphalt pavement.

The effects of the field emission property in relation to the surface morphology and adhesion force were investigated. The single-wall-nanotube-based cathode was obtained by use of an in-situ arc discharge synthesis method, a screen-printing method and a spray method. The morphologies of the formed emitter layers were very different. The emission stability and uniformity were dramatically improved by employing an in-situ arc discharge synthesis method. In this study, it was confirmed that the current stability and uniformity of the field emission of the cathode depend on the surface morphology and adhesion force of the emitters. The current stability of the field emission device was also studied through an electrical aging process by varying the current and electric field.

In this paper, the slope adhesion force of the developed green slope soil was evaluated by simulating rainfall intensity. From the results, the slope failure didn't occur at all conditions. As the slope angle increases, however, the damage decreased. The developed green slope soil is considered to have sufficient adhesion capacity to the slope.

This paper describes the structural behavior of insulated concrete wall panels with no-bond stress insulation. That panels reinforced with fiber reinforced polymer (FRP) truss shear connector to achieve composite action of inner and outer concrete wythes. Main test variable is bond stress. According to the test result, the shear capacity of increased due to bond stress and reinforced with FRP truss shear connector.