• Proceedings of the Korean Society of Precision Engineering Conference
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• 2001.10a
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• pp.269-275
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• 2001

정밀가공기계 및 소음발생원의 방진재료로서 사용될 수 있는 재료는 우선 내부 및 외부진동의 흡수성과 감쇠성이 뛰어나야 하고, 시간 및 온도변화에 따라 형상 및 치수 정밀도가 안정되어야 하며, 불규칙한 외력과 운동전달기구의 변동 하중 하에서도 높은 정적, 동적 강성을 유지해야 한다. 본 연구에서 개발한 재료인 Ferrite-Resin 복합재료는 Resin-Concrete에 미세한 산화철을 filler 재료로 사용함으로써 주철 및 강의 구조재료가 갖는 강성과 비중의 값에 접근시킬 수이었다. 일반적으로 불포화 폴리에스테르 수지나 에폭시계 수지는 glass 전위점의 근처에서 진동에너지의 흡수가 큰 영역이 존재하며 이는 10 .mu.m 이내의 미세한 filler재료가 포함되었을 경우에도 그 종류에 관계없이 큰 변화가 없는 성질이다. 시험편을 통한 재료실험을 통하여 개발된 복합재료를 모델 구조물에 적용시킴으로서 그 적용성을 검토하였다. 앞으로의 수지와 Ferrite 함유량 및 제조 공정이 적절히 모색되면, 이 방진재료가 정밀기계의 구조재료로서 뿐만 아니라 냉동기, 소형선박의 기관실, 가전제품 및 기어박스 등의 케이싱 재료로 사용되는 방진재료로서 그 응용이 확대될 수 있을 것으로 본다.

• Transactions of the Korean Society for Noise and Vibration Engineering
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• v.25 no.5
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• pp.321-328
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• 2015

In recent years, there has been an increasing demand to apply the new IACS(International Association of Classification Societies) standards for ice and polar-classed ships. For ice-class vessel propulsion system, the ice impact torque design criterion is defined as a periodic harmonic function in relation to the number of the propeller blades. However, irregular or transient ice impact torque is assumed to occur likely in actual circumstances rather than these periodic loadings. In this paper, the reliability and torsional vibration characteristics of a comparatively large six-cylinder marine diesel engine for propulsion shafting system was examined and reviewed in accordance with current regulations. In this particular, the transient ice impact torque and excessive vibratory torque originating from diesel engine were interpreted and the resonant points identified through theoretical analysis. Several floating ice impacts were carried out to evaluate torque responses using the calculation method of classification rule requirement. The Newmark method was used for the transient response analysis of the whole system.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.12 no.3
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• pp.125-130
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• 1979

In this paper, the noise pressure propagated in the air on account of the engine revolution of a stern trawler, Sae-Ba-Da(G. T. 2275.71) was measured at the check points No.1 through No.43 when the vessel was cruising, towing nets, and drifting. The experiment was carried out in the period from August 23 to October 22, 1978 at the locations of lat. $33^{\circ}$ 47'N, long. $127^{\circ}$ 34'E; lat. $34^{\circ}$ 24'N, long. $128^{\circ}$ 23'E; and lat. $6^{\circ}$ 01'N, long. $108^{\circ}$ 04'E. In case of cruising, noise on the weather deck came from funnel noise. The highest noise pressure was 92dB at observation point No.9 where tile noise pressure from main engine was 105dB when the engine was operated at 730rpm and $12^{\circ}$ sorely propeller pitch. The noise measured was reduced to 90dB at observation point No.9 when the screw propeller pitch was changed to $8^{\circ}$ that resulted in reduction of engine to 103dB. In case of towing net, the main engine revolution and screw propeller pitch was fixed at 730rpm and $8^{\circ}$ respectively. But the engine noise pressure was increased up to 106dB due to the towing resistance by 14 tons of the nets, and the noise pressure was 90dB at No.9 point. A hight noise was also generated from screw because of the towing reoistance and could be measurable even in the wall of the insulated freezing room. When the vessel was drifting: the noise pressure from the generator operated, at 720rpm was 100dB. This caused 87dB noise pressure at No.9 point. The noise pressure in the boarding or residence sections was 45 to 60dB in each case of cruisinrg towing net or drifting but it was so high as 82dB on the open deck that voice could hardly be heap.