• 한국해안·해양공학회논문집
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• 제23권2호
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• pp.139-146
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• 2011

충격쇄파압은 권파성 파랑이 구조물 전면에 갑자기 충돌할 때 발생하며 접촉면에서 공기포켓의 생성여부에 따라 충격쇄파압의 작용특성이 달라진다. 수괴의 직접적인 충돌에 따른 Wagner형은 접촉면에서 단일 압력 첨두치를 보이는 반면, Bagnold형은 공기포켓의 진동에 의하여 비접촉면에서도 압력의 첨두치를 보이는 특성이 있다. 본 연구에서는 시공 중의 수중터널 벌크헤드의 배면(육측면)에 발생하는 충격쇄파압을 고찰하였다. Navier-Stokes 방정식을 직접 푸는 수치해석을 적용하여 벌크헤드 인근에 발생하는 쇄파를 모의한 결과, 벌크헤드의 배면에서 강한 Bagnold형 충격쇄파압이 발생함을 확인하였다. 본 충격쇄파압의 존재는 동일 조건에 대하여 수행한 수리모형실험에 의해서도 확인되었으며, 실험결과와 수치해석결과가 대체적으로 유사한 성향을 보임을 확인하였다.

• 대한기계학회논문집
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• 제12권2호
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• pp.231-240
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• 1988

본 연구에서는 외압을 받는 공기윤활 저어널 베어링의 정적인 경우에 대해 증분법과 유한요소법을 적용하고 유량계수는 실험을 근거로 하여 포켓에서 베어링 내부로 유입될 때의 유압손실을 고려한 Pink와 Stout의 값을 이용하였다.

• 유체기계공업학회:학술대회논문집
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• 유체기계공업학회 2006년 제4회 한국유체공학학술대회 논문집
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• pp.345-348
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• 2006

In sheet metal forming process using press and draw die some defect can be made because of the high pressure of air pocket between draw die and the product. The purpose of this study is to develop a program to decide an optimal combination of air vent hole size and number to prevent those defect on product. The air inside air pocket is considered as ideal gas and the compression and expansion is assumed as isentropic process. The mass flow is computed in two flow condition: unchocked and chocked condition. The present computation obtains required cross-sectional area of air vent hole for not exceeding the user specified pressure such as the pressure for yielding strength of the product or the pressure for unchocked flow. To validate the program the present results are compared with the results of other researchers and commercial CFD code.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2000년도 추계학술대회 논문집
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• pp.261-262
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• 2000

항공기나 발전용 가스터빈(gas turbine) 및 대용량 압축기(compressor) 등과 같이 흡입공기의 유량이 매우 클 경우, 유입되는 공기 내부에 함유된 입자상 오염물질은 터빈의 기계적 성능에 큰 장애를 일으킬 수 있다(Klink and Schroth, 1996, Schroth, 1993). 이러한 입자상 오염물질을 효과적으로 제어하기 위해서는 처리기체의 유입구 부분에 대형 공기 정화용 여과시스템이 요구되며, 일반적으로 카트리지형 에어 필터(cartridge air filter)나 포켓형(pocket), 카세트형(cassette) 에어 필터가 적용 현장의 조건에 따라 사용된다. (중략)

• 한국자동차공학회논문집
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• 제16권6호
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• pp.10-18
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• 2008

Metal stamping is widely used in the mass-production process of the automobile industry. During the stamping process, air may be trapped between the draw die and the panel. The high pressure of trapped air induces imperfections on the panel surface and creates a situation where an extremely high tonnage of punch is required. To prevent these problems, many air ventilation holes are drilled through the draw die and the punch. The present work has developed a simplified mathematical formulation for computing the pressure of the air pocket based on the ideal gas law and isentropic relation. The pressure of the air pocket was compared to the results by the commercial CFD code, Fluent, and experiments. The present work also used the Bisection method to calculate the optimum cross-sectional area of the air ventilation holes, which did not make the pressure of the air pocket exceed the prescribed maximum value.

• Tribology and Lubricants
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• 제37권4호
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• pp.129-135
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• 2021

An air-bearing stage uses externally pressurized air as the lubricant between the stage and the rail. The supporting force generated by the supplied air makes the stage rise and move smoothly with extremely low friction. Mechanical contacts rarely happen, the bearing surfaces do not produce wear particles, and dust is not generated. It also has the advantage of having low energy loss and high precision. Because of its advantages, an air-bearing stage is used in several types of machines that require high precision. In this article, the effect of the pocket depth on the hammering phenomena of the air bearing is studied. An analysis program is developed to calculate the dynamic behavior of the stage by solving the Reynolds equation between the stage and the guideway and the equations of motion on the stage. The acceleration, constant movement, and deceleration are applied to the stage. The stage is modeled as a five-degree-of-freedom system. In the course of the dynamic behavior, the hammering phenomena occur under some special conditions. The deeper the pocket, the more unstable the behavior of the stage, and air hammering occurs when it exceeds a certain depth. In addition, the higher the supply pressure, the more unstable the behavior of the stage. However, hammering occurs even with a shallow pocket depth. Other conditions that affect the hammering phenomena are calculated and discussed.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2003년도 춘계학술대회
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• pp.998-1002
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• 2003

This paper investigates the characteristics of stiffness and load in the thrust bearing of spindle which could be changeable according to the groove shape of inlet, in order to design a high-stiffness air bearing by selecting a optimal groove shape. In experiments, dead weight and displacement sensor are used to measure the load carrying capacity and the stiffness respectively. Various shapes and different depth of groove of self-restrictor are used as experimental conditions. Comparative study between the theoretical value and the practical one by measuring the value of stiffness and load of the thrust bearing is performed.

• 한국해양공학회지
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• 제23권1호
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• pp.67-73
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• 2009

This study presents the results of a slamming experiment using a pneumatic cylinder. The employment of the pneumatic cylinder showed a relatively good repeatability when the results were compared with those of other slamming devices. The experiment was done for various incident angles. An air pocket was believed to cause a reduction in the magnitude of the impact pressure with an incident angle of $0^{\circ}$ for the water entry. A high speed camera was used in an attempt to locate the time of the contact between the bottom of the specimen and the free surface. It seemed that the maximum pressure occurred before the water contacted the bottom of the specimen.