In this study, theoretical analyses are performed to investigate the characteristics of the static and dynamic stiffness of a nonlinear vibration isolator system. The vibration isolator system is modeled as an equivalent nonlinear oscillator. Based on the model, the static equilibrium and frequency response solutions are obtained with the variations of external static load and/or system parameters. It is shown that the static stiffness of the nonlinear vibration isolator tends to be hardened with the increase of external static load, which prevents the occurrence of excessively large deflection. This static stiffness-hardening effect is more remarkable with a larger spring constant ratio. The dynamic stiffness is also strengthened when the spring constant ratio increases, which enlarges the force transmissibility and reduces the isolation frequency bandwidth. Thus, the static stiffness- hardening improves the robustness of the nonlinear vibration isolator, whereas the dynamic stiffness-hardening rather degrades its performance. Thus, the opposite tendency of the static and dynamic stiffness-hardening effects should be considered in the design process of the nonlinear vibration isolator.
Since ships are exposed to noise and vibration for a long time in seas isolated from land, the stress of workers is high, requiring studies on the improvement of the problem. In addition, the health of crew members on fishing vessels, unlike commercial ships, carrying out fishing activities is closely related to fishing performance. However, considering that most of IMO's guidelines apply to merchant ships, provisions should be made for vibration in accommodation areas of fishing vessels. Accordingly, this study, applying the revised ISO 20283-5:2016 standard and through experiment, investigated the vibration characteristics of the accommodation area for each operating conditions of a 1000-ton trawler fishing vessel. Within the scope of the study and the full-ahead mode, the vibration was highest in the engine control room (4.17mm/s) while the acceptable standard was satisfied sufficiently in all conditions. Application of the merchant vessel vibration standard to fishing vessel is expected to improve the working environment of fishing vessel crew members.
선박, 잠수함이 추진하면 수중구조물 후류에 와류가 발생하고 이에 따른 와류기인 구조진동이 유발된다. 최근 선박, 잠수함의 고속화 및 대형화 추세에 따라 고차모드에서 유발되는 와류기인 진동 및 피로파괴에 대한 중요성이 강조되고 있다. 고속 유속환경의 와 류는 저속 유속환경 대비 큰 진동을 유발하므로 이에 관한 연구가 필요하다. 본 연구에서는 수중날개 고차모드에서 유발되는 와류기인 진동을 예측하기 위한 하이브리드 유체구조연성 해석 방법론을 제시하였다. 고차모드를 고려한 하이브리드 유체구조연성 해석을 수행하 여 와류기인 진동을 도출하고 실험결과와 비교함으로써 방법론을 검증하였다. 최종적으로 와류기인 진동으로부터 도출된 최대 von Mises 응력을 노르웨이 선급에서 제시한 S-N 선도에 적용함으로써 고차모드 유체구조연성 해석의 효용성을 확인하였다. 고차모드를 고려하여 와류기인 진동응답을 도출할 경우 유체구조연성에 의한 락인(Lock-in) 특성을 확인하였으며 고려하지 않은 경우 대비 진동응답과 최대 von Mises 응력에서 10배 이상의 차이를 보였다. 향후에는 외팔보 경계조건 및 형상에 대한 확장연구가 필요하다.
최근 유기농산물에 대한 선호가 증가하고 있다. 유기농산물 생산에 있어 물리적 제초는 필수적이다. 하지만, 국내 밭 제초작업 기계화율은 60% 미만으로 낮으며, 농촌 인구의 고령화·여성화로 소형 제초기의 개발이 필요하다. 또한, 제초기의 경우 사용자가 반복적 진동에 노출되기 때문에 이를 절감할 수 있는 노력이 필요하나, 이에 대한 연구는 미흡한 실정이다. 따라서, 본 연구에서는 여성·고령 농업인도 사용하기 편리한 전동 배부식 중경제초기를 개발하는 데 있어 수평 회전식 원판에 부착된 제초날의 형상(원형, 삼각형, 일자형) 및 폭(15, 20, 25mm)에 따른 제초성능 및 ISO5349-1에 따라 손에 전달되는 진동을 분석하였다. 제초율은 원형 제초날에서 90.4~96.4%로 가장 높게 나타났으며, 진동 또한 원형 제초날을 사용하였을 때 사용자의 10%가 수지백증이 발병하는데 걸리는 시간이 20년 내외로 삼각형 및 일자형 제초날을 사용했을 때 보다 200% 가량 증가하는 것으로 나타났다. 따라서, 원형 제초날을 사용하였을 때 진동을 감소시킬 수 있으며, 불필요한 반력을 줄여 높은 제초효과를 볼 수 있을 것으로 판단된다.
Speaker is the converting device which change electric energy to sound energy, and we can easily see the speaker. They are widely used to home and car audio unit, home and industrial alarm device. Sometimes, the alarm sounds cause the environmental noise. Therefore it is important to design the appropriate speaker according to the installed device and position. In order to study the vibration and sound characteristics, the curvature of the cone paper is changed. Finite element method is used to compute the vibration characteristics and mode. Indoor and Vehicle teats are carried out to investigate the non-linear characteristics and the sound characteristics for some car speakers.
After the manual shutdown of the Wolseong nuclear power plant due to an earthquake in Gyeongju in 2016, anxiety about the earthquake safety of nuclear power plants has become a major social issue. The shear wall structure used as a major structural element in nuclear power plants is widely used as a major structural member because of its high resistance to horizontal loads such as earthquakes. However, due to the complexity of the structure, it is challenging to predict the dynamic characteristics of the structure. In this study, a three-story shear wall structure is fabricated, and the in-structure response characteristics of the shear wall structure are evaluated through shaking table tests. The test is performed using the Gyeongju earthquake that occurred in 2016, and the response characteristics due to the domestic earthquake are evaluated.
Most of speakers, the con-paper (con shape) or vibration plate generate the sound by reciprocating motion which is received vibrating signal from voice coil. On the other hand, the vibration speaker that reproduces sound by attaching a vibration head to some materials such as wood, plastic, glass plate, etc. instead of cone paper or vibration plate generates different sound timbres depending on the attached materials with vibration head. so we can hear a variety of timbres than ordinary speakers. In this study, the characteristics of vibration and sound propagation according to various materials attached to the vibration head of the vibration speaker were experimentally investigated and this sound propagation characteristics were compare with woofer speaker and micro speaker. As a result of sound propagation characteristics of vibration speaker, the reproduction ability of low frequency band wes inferior to compared than woofer speaker and micro speaker. This is judged to be due to the material characteristics of glass and wood which are source of the sound propagation. As compare with 1kHz sine tone, the woofer speaker has not generated the high order harmonic component, but the glass plate and wood plate used with the vibration speaker head have generated the high order harmonic component at a level that can not be ignored. According to above results, the vibration speaker will be had a low articulation of sound because the higher volume to generate the high distortion.
본 연구에서는 목탑 상륜부 구조물의 진동 특이성을 분석하였다. 목탑 상륜부 구조물은 공예가들에 의해서 만들어지기 때문 에 공학적인 판단을 받지 않고 설치되어 불안정한 상황이 발생될 수 있다. 최초에 설계된 평화의 탑 상륜부는 전체 높이 7,720mm 중 에서 약 2/3높이에 해당하는 5,150mm까지는 스테인레스 스틸을 사용하고 나머지 2,570mm는 황동으로 설계되어 제작 의뢰되었다. 최 초 설계안에 대해 진동해석을 수행하고 모드별 유효질량을 산출한 결과 2차모드의 유효질량이 1차모드의 유효질량보다 크게 산출되 었다. 이런 현상의 개선을 위해 황동 부분을 스테인레스로 변경하여 2차 설계안이 준비되었고 2차 안에 대한 진동해석을 수행한 결과 1차모드가 지배적인 모드로 전환되었다. 본 연구의 결과로, 2차모드의 유효질량이 1차모드의 유효질량보다 큰 것이 전단력 미친 영향 의 정도를 정확하게 판단하기는 어렵다. 이 부분에 대해 추후 연구가 진행되어야 정확한 언급이 가능할 것으로 판단된다.
High-performance vehicles with V6 or higher are designed with a dual exhaust system to satisfy both performance and quietness at the same time, and have a confluence geometry for the purpose of stably maintaining the back pressure inside the pipe. The exhaust system generates noise and vibration under the influence of the rotating engine. In particular, in a state such as idling, vibration occurs in a certain frequency range, which may affect the natural vibration of the exhaust system. Therefore, in this study, the optimal shape is proposed by comparing the ignition frequency calculated based on the vibration measurement result in the idle state and the numerical analysis result.
본 논문은 모노파일 풍력 지지구조물에 대한 공진 안전성 평가에서 여러 말뚝-구조물 상호작용(PSI) 모델을 사용하여 고유진동수를 비교하였다. PSI 재현을 위한 유한요소모델은 기저 스프링 모델, 분산 스프링 모델, 3차원 고체-쉘 모델을 사용하였다. PSI 모델이 고유주파수에 미치는 영향을 분석하기 위해 기저 스프링과 분산 스프링 모델 적용을 위한 강성행렬 산정법과 Winkler 보 모델을 각각 논문에 나타내고 이들 모델로부터 도출된 서로 다른 기하 및 지반조건을 갖는 모노파일의 고유진동수를 조사하였다. 해석 결과는 또한 3차원 고체-쉘 모델의 고유진동수와도 비교되었다. 해석결과는 소구경 모노파일이 견고한 지반 및 암반에 관입된 경우 각 해석모델로부터 얻어진 고유진동수의 차이가 거의 없음을 보여준다. 반면 연약 지반에 설치된 대구경 모노파일에 대해 분산 스프링 모델은 고유진동수를 과대평가할 수 있다. 따라서 고유진동수 평가 시 구조물 규모와 지반 조건을 고려해 적합한 PSI모델이 적용되어야 한다.
The purpose of this study is to investigate the distribution patterns of displacement and acceleration fields in a nonlinear soil ground based on the interaction of high-speed train, wheel, rail, and ground. For this purpose, a high-speed train in motion was modeled as the actual wheel, and the vertical contact of wheel and rail and the lateral contact, caused by meandering motion, were simulated; this simulation was based on the moving mass analysis. The soil ground part was given the nonlinear behavior of the upper ground part by using the modified the Drucker– Prager model, and the changes in displacement and acceleration were compared with the behavior of the elastic and inelastic grounds. Using this analysis, the displacement and acceleration ranges close to the actual ground behavior were addressed. Additionally, the von-Mises stress and equivalent plastic strain at the ground were examined. Further, the equivalent plastic and total volumetric strains at each failure surface were examined. The variation in stresses, such as vertical stress, transverse pressure, and longitudinal restraint pressure of wheel-rail contact, with the time history was investigated using moving mass. In the case of nonlinear ground model, the displacement difference obtained based on the train travel is not large when compared to that of the elastic ground model, while the acceleration is caused to generate a large decrease.
Generally, vibration absorber systems are composed of spring-mass systems to reduce the vibration of a structure, and there are also methods to simply increase damping to achieve a damping effect across a wide frequency band. One similar method is to use a mechanism in which the eddy current is converted into a mechanical damping effect. When an eddy current is generated by electromotive force due to magnetic flux change, the reaction force is generated by the eddy current’s circulation. In this study, the damping system using the reaction force was constructed to reduce the transmission of vibrations generating from internal fluid and the vibration reduction characteristics that are transmitted externally were analyzed. As a result, 8.2 % of the vibration reduction effect from primary excitation frequency was confirmed.