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김순채,김희남,권동호 한국공작기계학회 1996 한국생산제조학회지 Vol.5 No.1
In this paper, we have studied about the relationships between a core gap and a feeding velocity, an amplitude and the core gap by the exciting force, the parts movement and a bowl materials, and the feeding velocity and the weight of the parts in the parts feeder. The obtained are as follow: 1) Optimal condition of mean feeding velocity is speeded up largely when the core gap is in 0.6mm. 2) It can be safe to say that the relation between the feeding velocity and the exciting voltage relay on the core gap. 3) An exciting voltage is rised by an increase of the weight, but an amplitude has been in the range between 23㎛ through 40㎛.
바이트재종 변화에 의한 에폭시 수지의 절삭성에 관한 연구
김희남,김순채 明知大學校 産業技術硏究所 1997 産業技術硏究所論文集 Vol.16 No.-
The mechanism for cutting epoxy resins specimens, which were specially provided, was experimentally investigated to obtain a fine surface finish. The specimens were cut the three-dimensional under dry conditions using a lathe. The relationship between the topography of the cut surface due to the change rate of temperature of the cutting condition using sintered carbides (P20, K10, KT150) was investigated. The main results obtained are as follows : 1) The profile of surface roughness were regulated K10 but irregulate P20, KT150. 2) The surface roughness value decreased K10 rather than P20, KT150. 3) The cutting resistance increased thrust force rather than cutting force due to the visco-elastic material of epoxy resins.
Parts Feeder의 진동특성에 관한 연구(제2보) : Vibration Characteristics due to Bowl Materials Bowl의 재질에 관한 진동특성
김희남,권동호,김순채 明知大學校 産業技術硏究所 1995 産業技術硏究所論文集 Vol.14 No.-
In this paper, we have describes about the relationships between a core gap and a feeding velocity, an amplitude and the core gap by the exciting force, the parts movement and a bowl materials, and the feeding velocity and the weight of the parts in the parts feeder. The main results as compared with the stainless and the aluminum materials are as follow : 1) The mean feeding velocity by bowl material shown more relative proportion in the STS304 to the exciting voltage than the C5AV. 2) In the exciting voltage, the response time for the aluminum material is slow, but the stainless is sensibility. 3) An exciting voltage is rised by an increase of the weight, but an amplitude has been in the range between 23μm through 40μm.
저온냉각공구의 절삭특성 변화(제3보) : Cutting Characteristics of Cage Motor Rotor 모타 회전자의 절삭특성
김순채,박태문,김희남 明知大學校 産業技術硏究所 1996 産業技術硏究所論文集 Vol.15 No.-
The cutting process of cage motor rector require high precision and good roughness. The surface roughness of cutting face is very important factor with effect on the magnetic flux density of cage motor rotor. The paper describes a cause of decrease in the cutting force and roughness on low temperature cooling tool by means of analysis on the mechanism of force system at cutting condition and experimental findings. The main results as compared with the room temperature cutting are as follow: 1) The cutting resistance decreased due to low temperature cooling tool. 2) The surface roughness decreased due to low temperature cooling tool. 3) The low temperature cooling tool effected machinability of the cutting direction in machined surface. 4) The low temperature cooling tool decreased burr of corner in feed direction.
Al₂O₃-Fe-Barium Ferrite계 자성입자에 따른 자기연마특성
김순채(Soon-Chae Kim),낭궁재관(Chai-Kwan Namkoong) 한국생산제조학회 2005 한국생산제조시스템학회 학술발표대회 논문집 Vol.2005 No.10
An internal finishing process applying Magnetic Abrasive Finishing (MAF) was proposed to produce smooth inner surfaces of tubes at a high rate. Since this process has used the tube rotation system, it is considered applicably only to tubes which are rotatable at high speed. To extend the area of the internal finishing process applying MAF, the development of the stainless tube(STS 304) rotation system using WA-Fe-B-F abrasive grain has been tried. By applying the stainless tube(STS 304) rotation system and the magnet ic abrasive grain method, the effects on the surface roughness using WA-Fe-B-F abrasive grain are as follows: 1) The magnet abrasive finishing minimized influence due to external force because non-contact finishing 2) The profile of surface roughness decreased very smooth surface in magnet flux density 1600G due to abrasive speed. 3) The profile of surface roughness by finishing time the more decreased in abrasive grain 140㎛. 4) The friction force and finishing force is usually depended upon magnet brush behavior due to flux density.