Analysis of the Aluminum Extrusion Process Equipped with the Continuous Heat Treatment System

Lee, Bong-Sang; Cho, Young-Hee; Lee, Jeong-Min; Lim, Hak-Jin; Koo, Jar-Myung; Yoon, Bo-Hee; Lee, Tae-Hyuk; Lee, Jong-Hyeon

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자료유형: 학술저널

저자정보: Lee, Bong-Sang (Technical Research Laboratory, Dongyang AK Korea Co. Ltd.) Cho, Young-Hee (Technical Research Laboratory, Dongyang AK Korea Co. Ltd.) Lee, Jeong-Min (Technical Research Laboratory, Poongsan Corporation) Lim, Hak-Jin (Technical Research Laboratory, Poongsan Corporation) Koo, Jar-Myung (Division of Advanced Materials Engineering, Kongju National University) Yoon, Bo-Hee (Department of Nano Materials Engineering/Graduate School of Green Energy Technology, Chungnam National University) Lee, Tae-Hyuk (Department of Nano Materials Engineering/Graduate School of Green Energy Technology, Chungnam National University) Lee, Jong-Hyeon (Department of Nano Materials Engineering/Graduate School of Green Energy Technology, Chungnam National University)

저널정보: 한국재료학회 한국재료학회지 한국재료학회지 제21권 제1호

발행연도: 2011.1

수록면: 39 - 45 (7page)

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In this study, the heat flow of the plant scale aluminum extrusion process was investigated to establish optimum continuous heat treatment conditions. During the extrusion of 6061 aluminum alloy, processing parameters such as the extrusion pressure, speed and temperature histories of billets were logged as a function of time. The surface temperature of the billets increased at constant ram speed, while it decreased with decreases of the ram speed. In order to maintain the billet temperature within a solutionizing temperature range prior to the succeeding water quenching step, the ram speed or the temperature of the blower should be controlled. The temperature histories of the billets during the extrusion and hot air blowing processes were successfully simulated by using the velocity boundary model in ANSYS CFX. The methodology to design an optimum process by using a commercial simulation program is described in this study on the basis of the metallurgical validation results of the microstructural observation of the extrudates. The developed model allowed the advantages of taking into account the motion of the extrudate coupled with the temperature change based on empirical data. Calculations were made for the extrudate passing through the isothermal chamber maintained at appropriate temperature. It was confirmed that the continuous heat treatment system is beneficial to the productivity enhancement of the commercial aluminum extrusion industry.

#aluminum #continuous heat treatment #simulation

참고문헌 (10)

참고문헌 신청

S. Lou / 2008 / J. Mater. Process. Tech 206(1):481

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S. S. Tavares / 2003 / J. Mater. Process. Tech 143:584

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소속기관 한국원자력연구원

주요연구분야 공학 > 기계공학 > 기계공학 일반 공학 > 재료·에너지공학 > 재료공학

논문수 47 이용수 2,750

Cho, Young-Hee

소속기관 Technical Research Laboratory, Dongyang AK Korea Co. Ltd.