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http://dx.doi.org/10.14775/ksmpe.2020.19.05.111

Manufacturing System of Centrifugal Cast Metal Bearing by Dehydrogenation  

Kim, Jeung-Hun (Bio-Industrial Machinery Engineering, PUSAN NATIONAL UNIVERSITY)
Kim, Chung-Gu (Kumho Tech.)
Byen, Jea-Young (Bio-Industrial Machinery Engineering, PUSAN NATIONAL UNIVERSITY)
Lee, Eun-Suk (Bio-Industrial Machinery Engineering, PUSAN NATIONAL UNIVERSITY)
Yang, Ji-Yung (Bio-Industrial Machinery Engineering, PUSAN NATIONAL UNIVERSITY)
Choi, Won-Sik (Bio-Industrial Machinery Engineering, PUSAN NATIONAL UNIVERSITY)
Publication Information
Journal of the Korean Society of Manufacturing Process Engineers / v.19, no.5, 2020 , pp. 111-117 More about this Journal
Abstract
Centrifugal casting is suitable for producing hollow-products using centrifugal force. Bush type metal bearings are the key parts that facilitate the rotational movement of various machinery. Metal bearings produced by conventional centrifugal casting machines show rotational imbalance. Therefore, after injecting a large amount of material, the product's precision is secured in the secondary processing. Rotational imbalance is caused by the force acting on the rotary disc plate. In order to minimize rotational imbalance, NASTRAN was used for the optimal design and structural analysis. It was concluded that the rotating plate of the conventional centrifugal casting machine should be prevented from tilting. For this purpose, the location & thickness of the stiffeners were obtained through the optimum design. In the conventional centrifugal casting machine, both ends of the product are lower in temperature than the center part, so internal stress occurs. This solves this problem by inserting a heating coil into the rotating plate.
Keywords
Centrifugal Casting; Dehydrogenation Heat Treatment; Metal Bearing; NASTRAN;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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