• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2004년도 추계학술대회논문집
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• pp.97-102
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• 2004

The Characteristics of noise and vibration by heavy-weight floor impact sound was studied. Resonance frequency increased a little in structures that use damping material in living room and bedroom, and acceleration waves length that respond became short, and displayed aspect that oscillation level decreases. Result that measure sound pressure level, structure that compare and applies damping materials with structure that apply the resilient materials from 63Hz lower part that impact energy is concentrated in energy spectrum of heavy-weight floor impact sound displayed result that sound pressure, level decreases remarkably. Therefore, according to use of damping materials, confirmed reduction effect of heavy-weight floor impact sound.

• 수산해양기술연구
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• 제23권2호
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• pp.8-8
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• 1987

1986년 8월 1일부터 8월 30일까지 완도, 목포, 흑산도 항로와 흑산도에서 제주항 항로상에서 해상이 잔잔한 날을 택하여 실습선 부산403호의 순항시와 표박시의 주기관과 각 갑판의 선수미선상에서의 주요장소에서의 진동과 소음준위를 측정하고 진동분석을 통하여 진동변위, 속도, 가속도를 비교·고찰한 결과를 요약하면 다음과 같다. 1. 진동과 소음압준위. 1) 주갑판상에서 진동과 소음준위가 가장 높은 곳은 주기관의 수직상면이고 가장 낮은 곳은 소음은 선교수직하, 진동은 선수부창고의 수직하면에서이다. 2) 주기관 cylinder head, 기관실 좌측, 축계관상부에서 순항시의 진동준위는 80, 67, 65dB이고, 소음준위는 각각 104, 87, 86dB이다. 3) 선교를 통과하는 수직선상의 진동준위는 최저갑판에서 60dB로 가장 높고, 선교갑판에서 55dB로 가장 낮으며, 소음준위는 compass deck에서 75dB로 가장 높고, 최저갑판에서 53dB로 가장 낮다. 4) 노천갑판에서 진동과 소음준위는 모두 보우트갑판에서 각각 65, 84dB로 가장 높고, 진동준위는 교실 위에서 51dB, 소음준위는 선수누갑판에서 57dB로 가장 낮다. 5)최저갑판의 진동과 소음준위는 모두 기관실에서 가장 높아 각각 65dB, 85dB이고, 선수부창고에서 가장 낮아 각각 54dB, 52dB이다. 진동준위와 소음준위를 비교하면 기관실을 중심으로 하여 선수쪽에서 진동준위가 높고, 선미쪽에서는 소음준위가 높다. 2. 진동분석 1) 진동변위는 주기관 cylinder head에서 100μm로 가장 크고, compass deck에서는 3μm로 가장 작다. 또 진동속도는 주기관 cylinder head에서 11mm/sec로 가장 빠르고, compass deck에서 0.07mm/sec로 가장 느리며, 이들은 모두 100Hz 이상에서는 급격한 감쇄를 보였다. 2) 진동가속도는 주기관 cylinder head에서 중심주파수 1KHz, 1.1mm/sec 상(2) 로 가장 빠르고 compass deck에서 30Hz, 0.05mm/sec 상(2) 로 가장 느리다.

• 수산해양기술연구
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• 제23권2호
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• pp.54-60
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• 1987

1986년 8월 1일부터 8월 30일까지 완도, 목포, 흑산도 항로와 흑산도에서 제주항 항로상에서 해상이 잔잔한 날을 택하여 실습선 부산403호의 순항시와 표박시의 주기관과 각 갑판의 선수미선상에서의 주요장소에서의 진동과 소음준위를 측정하고 진동분석을 통하여 진동변위, 속도, 가속도를 비교.고찰한 결과를 요약하면 다음과 같다. 1. 진동과 소음압준위. 1) 주갑판상에서 진동과 소음준위가 가장 높은 곳은 주기관의 수직상면이고 가장 낮은 곳은 소음은 선교수직하, 진동은 선수부창고의 수직하면에서이다. 2) 주기관 cylinder head, 기관실 좌측, 축계관상부에서 순항시의 진동준위는 80, 67, 65dB이고, 소음준위는 각각 104, 87, 86dB이다. 3) 선교를 통과하는 수직선상의 진동준위는 최저갑판에서 60dB로 가장 높고, 선교갑판에서 55dB로 가장 낮으며, 소음준위는 compass deck에서 75dB로 가장 높고, 최저갑판에서 53dB로 가장 낮다. 4) 노천갑판에서 진동과 소음준위는 모두 보우트갑판에서 각각 65, 84dB로 가장 높고, 진동준위는 교실 위에서 51dB, 소음준위는 선수누갑판에서 57dB로 가장 낮다. 5)최저갑판의 진동과 소음준위는 모두 기관실에서 가장 높아 각각 65dB, 85dB이고, 선수부창고에서 가장 낮아 각각 54dB, 52dB이다. 진동준위와 소음준위를 비교하면 기관실을 중심으로 하여 선수쪽에서 진동준위가 높고, 선미쪽에서는 소음준위가 높다. 2. 진동분석 1) 진동변위는 주기관 cylinder head에서 100$\mu$m로 가장 크고, compass deck에서는 3$\mu$m로 가장 작다. 또 진동속도는 주기관 cylinder head에서 11mm/sec로 가장 빠르고, compass deck에서 0.07mm/sec로 가장 느리며, 이들은 모두 100Hz 이상에서는 급격한 감쇄를 보였다. 2) 진동가속도는 주기관 cylinder head에서 중심주파수 1KHz, 1.1mm/sec 상(2) 로 가장 빠르고 compass deck에서 30Hz, 0.05mm/sec 상(2) 로 가장 느리다.

• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2004년도 춘계학술대회논문집
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• pp.505-508
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• 2004

단열완충재 제품간의 경량충원 저감성능 평가를 객관적이고 신속하게 판별하기 위하여 실험실용 시험장치를 개발하였다. EVA계열 및 EPPㆍEPS계열의 단열완충재들에 대한 경량충격원 시험에서 제품간의 성능비교가 가능하였으며, 동탄성계수 및 손실계수 측정과 병행함으로써 제품들간의 우열성을 보다 정밀하게 평가할 수 있었다.

• Tribology and Lubricants
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• 제35권2호
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• pp.114-122
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• 2019

High-speed rotating machinery requires low cost and reliable bearing elements with low friction, stable rotordynamic characteristics, and a simple design. This study experimentally evaluates the effects of bearing-support elements on the vibrational characteristics of a small-sized, high-speed permanent magnetic motor. A series of coast down tests from 100 krpm characterize the vibrational behaviors, rotor displacement, and housing acceleration of motors supported by ball bearings, ball bearings with a metal mesh damper, and gas foil bearings, respectively. Two eddy-current sensors installed in the horizontal and vertical directions measure the displacement of the rotor at its front nut, and a 3-axis accelerometer attached to the motor housing measures the housing acceleration. The test results reveal that synchronous (1X) vibration components most significantly affect the rotor displacement and housing acceleration, independent of the bearing-support elements. The motor supported by the deep-groove ball bearings results in the largest rotor vibrations increasing with speed; this is due to the absence of a damping mechanism. Additionally, the metal mesh damper effectively reduces the rotor displacement, housing acceleration, and sound-pressure level in the high-speed region (i.e., above 40 krpm), thus implying its substantial damping performance when installed on the outer race of the ball bearing. Lastly, the gas foil bearing supported motor yields the smallest rotor displacement, housing acceleration, and lowest sound-pressure level because of its hydrodynamic airborne operation, which does not require rolling elements that may cause mechanical friction and vibrations.

• 한국소음진동공학회논문집
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• 제27권1호
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• pp.100-106
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• 2017

Sound quality engineering in automobile noise applications has become more and more important under the current quiet driving condition because various noise components masked under high noise level can be audible in quieter driving situation. Many researches have been carried out for subjective and objective assessments on automobile sounds and noises. In particular, the interior sound quality has been one of research fields that can give high-quality feature to automobile products. Although many works related to the interior sound quality have been progressed or completed in foreign countries, limited research results are presented in the country. In the study, subjective assessments are first performed with 20 subjects to select perceptual adjectives suitable to the assessment of car interior noises during acceleration. The selected perceptual adjectives are employed as the assessment scales to evaluate the acceleration noises in questionnaire procedures using 35 subjects, for which several noises are created through digital filtering of the acceleration noises measured. Mean values and standard deviations for subjective assessment scores obtained by the questionnaire procedures are calculated and their reliability are also verified. Finally, various statistical analyses such as the correlation analysis and the factor analysis are carried out to reveal the interrelationship between the assessment scales and the spectrum components of the acceleration noises.

• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2000년도 춘계학술대회논문집
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• pp.933-939
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• 2000

In this paper we present an overview of the factors and techniques that must be considered in vibration measurements in the floor structures for microelectronics facilities. Normally narrowband vibration spectrum or equivalent signals are suggested as the guide indexes of site vibration phenomina. But it cannot support perfect informations in designing vibration control systems for the vibration sensitive equipment even though the spectrum serves to illustrate the fact that most real vibration environments are dominated by broadband energy as opposed to tonal energy. The major topics cover stiffness in frequency and time domain, acceleration level and modal characteristics from experimental modal analysis as well as narrowband spectrum. The combined signal analysis through the items mentioned above can give better solutions and would be positively recomended to solve the vibration problems on a sort of limited field.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2005년도 추계학술대회 논문집
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• pp.848-853
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• 2005

The objective of this paper is to address to the providing an adequate noise and vibration solution, required for High Speed Rail while maintaining the stability criteria of the ChonAn station structure, the first constructed in Korean High Speed Railway. The significant acoustic pressure level will be induced by the high speed trains passing-by. Therefore, the high level study of this case is necessary. The acoustic pressure level of 85 dB(A) inside the ChonAn station is expected, and the spaces below concrete slab are not suitable for commercial purpose, thus installation of filtering systems (spring boxes containing viscous dampers, ballast mats and acoustic shield) are provided to reduce the effect of the noise and vibration to acceptable level of 55 dB(A). But, a major drawback of application of the previously conducted experimental results was that the actual effect of installation of filtering system was never been validated. Therefore, the acquisition of noise and vibration on the present structure were obtained and compared to the computer simulations. These predicted the behavior of the station reasonably well. Also, the installation of filtering systems gave the superior reduction on noise and vibration. This application is successfully adapted without scarifying stability criteria related to the structural stability including excessive deformations or displacements. Three traffic operation safety limits: deck vertical acceleration, deflection of the structure, and longitudinal displacement of the slab were satisfactory.

• 소음진동
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• 제11권1호
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• pp.76-81
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• 2001

This paper addresses experimental results carried out to investigate the transmission of seat vibration to the head for Korean. Vertical seat vibration in the frequency range of 0.5-30 Hz was applied to a seated Korean male subject. To examine the intra-variable effects on transmissibility, five different postures and three different vibration excitation levels were considered. The applied acceleration and head accelerations of the seated subject were measured simultaneously by using a 6-axes bite-bar. Detailed experimental results of measured transmissibilities are illustrated for each posture and/or vibration excitation level, and they were compared to an International Standard. They are found to allow the identification of dynamic characteristics of Korean seated body for various reat vibration environments. Furthermore, they are expected to be very useful in designing new seats for automotive and railway vehicles and in improving their vibration ride quality.

• 한국소음진동공학회논문집
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• 제19권10호
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• pp.1083-1091
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• 2009

Modern military equipments are tend to be mounted on a movable truck for their survivability and operation performance. Special units and electronic equipments installed on the truck experience the vibration caused by road roughness during their transport. The level of the transportation vibration is affected by both road conditions and vehicle speeds. In this paper, various experiments on the vibration characteristics of the equipment are carried out via road tests. Transportation vibration is also investigated by numerical analysis using FEM, and natural frequencies and random responses of the launcher are obtained. The PSD and RMS values of acceleration of the equipment are predicted and compared with test results.