In this paper, the relationship between the frequency split and the mode-coupling in the disc doublet mode, which is expressed according to the pattern of the surface of the disc, is utilized by using of 3 types(Chaos, Vent-hole, Normal). As the frequency split between the doublet mode disc that is expressed in the model through the interpretation is larger, and analogy through interpretation mode-coupling instability also lower. Vent-hole, which has a relatively large frequency split of disc doublet mode in 3 types(Chaos, Vent-hole, Normal) model, showed a large value of critical coefficient of friction in which mode-coupling instability is expressed. In addition, it was confirmed by analysis that the Vent-hole had a relatively large frequency split than the other models by analyzing the change in contact stiffness. It can be concluded that the larger the frequency split of the disc doublet mode, the lower the instability due to the mode-coupling.

The brake systems are composed of brake disc, brake pad and caliper and, these three parts play an important role for braking. In this study, heat fluid analysis is conducted for five different ventilated disc models, and two piece brake disc model separated in rotor and housing is used. In this case, each model has a different number of holes and vent shape. The basic heat flux and braking power equations are applied for the heat fluid analysis. The cooling performance with/without the braking operation is also analyzed for given five models where the material properties and boundary conditions are set to be identical. From our analysis results, it is found that the number of disc holes and ventilated pins strongly influences on the cooling performance.

최근 건설 기술의 발달과 더불어 긴 지간을 갖는 사장교나 현수교의 건설이 증가되어 왔다. 긴 지간을 이용하는 이런 형태의 교량들은 해안이나 산간벽지의 교량을 건설하는데 적합하다. 그러나, 이러한 교량들의 케이블이나 상판들은 차량 충돌에 기인된 화재로 인하여 가끔 손상을 받아왔다. 화재에 노출된 케이블은 대형 참사를 야기시킬 수 있고, 구조요소로서의 중요한 역할을 할 수 없게 된다. 본 논문의 목적은 교량위의 차량 화재로 인한 사장교 케이블 안전성을 예측하고 평가하는데 있으며, 교량의 3차원 모델링에 있어서는 상용소프트웨어인 Solid-Works를 사용하였고, 사장교 케이블의 열전달해석과 유동해석에는 Cosmos-FloWorks를 이용하였다. 간편 해석을 위해, 방호책과 열원사이의 거리, 풍속, 케이블을 싸고 있는 파이프 끝단 높이는 고정 상태로 악조건으로 하고, 시간과 함께 변동되는 열원에 의한 케이블의 열전달해석과 유동해석을 하였다.