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高壓容器의 Flush Type Nozzle 接合部의 應力集中緩和 硏究
尹甲英 漢陽大學校 1971 論文集 Vol.4 No.-
When a flush type nozzle is attached to a cylindrical wall of a Pressure vessel which is subjected to internal pressure, the stress distribution on the intersecting line of the nozzle and the cylindrical wall is very complicated, and the difference between stresses of longitudinal direction and circumferential direction on the line is very large. Generally, the stress concentration factor is more than 2. 0. In this paper, a method of decreasing the stress concentration in pressure vessel attached a flush type nozzle is studied by means of photoelastic experiment. The thickness of the wall at the vicinity of the lower stress is reduced to make the wall thickness is proportional to the magnitude of the stress, then the low stresses become higher than the ones before reducing the wall thickness is proportional to the magnitude of the stress, then the Low stresses become higher than the ones before reducing the wall thickness and the high stresses, where the wall thickness is not reduced, become lower. By this method, the stress concentration factor is decreased to less than 1.2. The result of this study expected to contribute to the design of high quality pressure vessel.
추원공을 가진 무한평판의 응력집중계수와 추원주를 가진 Potential Flow 의 응력계수와 비교연구
김동현,윤갑영 대한기계학회 1981 대한기계학회논문집 Vol.5 No.4
This study aims to compare stress concentratior factors in a loaded elastic body of the infinite plate with pressure coefficients of a fluid in the potential flow. First in view of hydrodynamics, when a single elliptic cylinder in the form of a bluff body stands in the potential flow, the pressure distribution(doefficient, C$\_$p/around the elliptic cylicder which is changed according to the position(angular displacements)is theoretically analyzed and calulated; secondly, in view of theory of elasticity, when an eliptic hole which is made on a flat plate gets tension, the stress distribution(factor) around the elliptic hole which is changed according to the position(angular displacements )is theoretically(K$\_$t/) and experimentally (K$\_$e/) measured; and finally. The results are compard and examined.
박종오,남도현,윤갑영 대한기계학회 1990 大韓機械學會誌 Vol.30 No.1
로봇을 이용한 납땜자동화 시스템은 현재 산업계에서의 수요가 크게 일고 있다. 기존납땜 로봇 시스템은 느린 납땜 속도와 제한된 납땜 공구 기능으로 인해 그 응용범위의 확산을 저해하고 있다. 여기서는 로봇에 맞는 자동납땜용 공구 시스템 (robotonomic tool system)이 개발되었다. 우선 그 특징으로서 진동납땜 공정을 개발하였으며 평균 25%의 생산속도 향상을 기하였다. 일 정범위에서의 위치 오차 보정기능을 가지고 있다. 위치 오차는 납땜점 오차와 가압력 오차를 초래하며 이는 납땜 품질의 신뢰도를 저하시킨다. 여기서 핀 오차 보정 및 납땜 가압력 최적화 공정을 추가한 유연성이 향상된 자동납땜 시스템을 개발하였다. 이는 정밀 자동납땜 로봇 시스 템으로 그 응용범위를 확장시켰다.
정인승,손지원,윤갑영 대한기계학회 1987 대한기계학회논문집 Vol.11 No.2
본 논문에서는 동력전달용 기어에 주로 쓰이는 물림률 1.3 이상일 때, 치면접 촉응력과 공칭굽힘응력이 작게되는 풀림각 1˚로 고정하여 잇수 30∼100개 압력각 14˚∼30˚의 범위에서 최소 원호반경식과 치형 조건을 만족하는 최대 원호반경식에 대하여 고찰하였다. The composite gear which is composed of involute curve and circular arc has been studied. In the vicinity of pitch point, its profile is an involute curve, and in the dedenum, a circular arc. The curve in the dedendum is generated by the circular arc of the mating gear. Though the available range between minimum and maximum radius of circular arc can be given by existing tooth profile equation, there was no formulation which relates design parameters to the desired radius. It is attempted to get the formula for the radius of circular arc as a function of design parameters, such as unwounded angle, number of teeth, module, and pressure angle. The radius of circular arc, the chordal tooth thickness at working root circle, nominal bending stress, Hertz stress and contact ratio obtained from derived formula are compared with those of the existing design criteria. And these are compared with those of involute gear.
김동현,차홍석,윤갑영 대한기계학회 1986 대한기계학회논문집 Vol.10 No.6
본 연구에서는 판의 대변형이론을 도입하여 탱크저판의 두께, 탱크의 높이, 돌출부의 길이 등의 기하학적변수와 중심과 구석의 침하차를 무차원하여 이것들의 영 향으로 인한 처짐곡선과 반경 및 원주방향의 막력의 변화를 규명해보고자 한다. 또 한, 좌굴에 관한 8계미분방정식을 도입하여 셸 하단부의 전단력으로 인한 원통셸의 임 계좌굴력을 구하여 원통 셸의 안전성을 검토하고자 한다. The Stress analysis based on the large deflection theory of plate for the large cylindrical storage tank is performed by considering the change of membrane force for the various parameter, i.e., thickness ratio, tank height to diameter ratio, and stretched length. The critical buckling force of cylindrical shell is obtained to investigate the safety of tank shell. By numerical result, the thickness ratio is the important parameter for the membrane force, the height of tank is related linearly with the force, and the stretched length of bottom plate is little influenced. Also, the critical buckling force of cylindrical shell is large than the edge shear force at bottom-shell junction, and hence the consideration of the shell buckling is not required.