As a surface treatment method of concrete pavement in Korea, transverse tinning has initially been applied to improve drainage and friction at first. Since 2003, in order to reduce the noise of concrete pavement, longitudinal tinning have been studied and proved its superiority. Therefore, Korea Expressway Corporation (KEC) has applied this as surface texturing method in concrete pavement from 2008 to the present. However, the lateral vibration during vehicle running has been continuously raised in the longitudinal tinning section, and lots of efforts have been made to solve this problem. Nonetheless, complaints still occur intermittently in some sections. In this research, three sections in which complaints occur and three test sections were chosen to evaluate characteristics of lateral vibration between tire and longitudinal texturing. Based on the literature survey on the correlation between longitudinal texturing and tire, evaluation of the site and FEM analysis of each road surface were carried out. As a result of the analysis, the lateral vibration occurred most frequently in the random tinning section compared to other sections, and it was relatively few at the other improved tinning of the test section. Further studies on various tire types and timing intervals in the future will provide a standard of longitudinal texturing, which will reduce lateral vibration.

The present authors recently gave an analytical method for estimating three spring constants Kr, Ks, and Kt, for sidewall stiffnesses of radial tires. These represent the radial, lateral, and in-plane rotational directions respectively. The method is based on netting theory with special consideration to stiffness of the rubber matrices in the sidewall These theoretical results were verified by experiment to have sufficient accuracy. In order to confirm the availability of these spring constants, the twisting stiffness Rt of a radial tire has been analyzed in the present paper by using a spring-supported ring model. An explicit formula for Rt, expressed in terms of the three components of the spring constant, was obtained. Experiments were conducted on a 175SR14 radial tire by increasing the inflation pressure while keeping the tread circumference constant. The theoretical results agreed well with the experimental results. A related problem is also referred to; this is the forced lateral vibration with fundamental eigen-modes of the inflated sidewall-rim system when the tread is fixed. Eigen-frequencies calculated by using those spring constants coincide well with the experimental results.

풍하중을 받는 구조물은 해석의 편의상 층당 3개의 자유도를 가지는 해석모델을 사용한다. 구조물의 입면 형상이 비정형이 되고, 평면내 구조재의 배치가 층에 따라 변경이 되면 각층의 질량중심과 강성중심의 차이에 의해서 병진방향상호간 또는 병진방향과 비틀림 방향이 상호연관되어 이에 따른 각 방향의 고유모드가 연계된 진동특성을 가지게된다. 본 연구에서는 풍하중에 의한 구조물의 응답에 가장 큰 영향을 미치는 저차의 3개의 병진-비틀림 모드가 연계된 구조물의 진동을 저감하기위한 능동제어기법에 대하여 다룬다. 이를 위하여 풍동실험으로부터 구한 각 방향 밑면 전도모멘트와 비틀림모멘트가 연계모드에 작용하는 모달풍하중으로 치환된 운동방정식을 유도하고, 운동방정식에 기반한 상태방정식을 통하여 제어력을 산정한다. 제어력 포화를 고려하여 위상분할 제어알고리듬과 H∞ 제어알고리듬이 합성된 새로운 제어알고리듬을 제안하였으며, 풍동실험을 수행한바 있는 대상구조물에 대해 수치시뮬레이션을 수행한 결과 기존 제어알고리듬인 LQR에 비해 대등한 제어효과를 가지면서 제어력의 크기를 줄일 수 있는 것을 검증하였다.

Two perforated plates(a square plate and a rectangular plate having an as야ct ratlO 1.57(L,=11, L,= 7)) are taken as analysis examples. Each of these plates is given some changes in the boundary ∞nditions. The size of cutouts as well as their locations are also changed in order to examine the variation of two eigenvalues corresponding to the fundamental mode. The relationship between two eigenvalues is estab!ished by changing the magnitude of edge thrust