• Clean Technology
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• v.27 no.4
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• pp.297-305
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• 2021

In the domestic aluminum industry, the extrusion process is a major process accounting for more than 40% of the total production. However, most domestic aluminum extrusion companies produce aluminum using old equipment that is more than 30 years old. Extrusion press is when the equipment is not replaced before the wear and breakage of major parts occur, reducing productivity and increasing the defect rate compared to new equipment. The old extrusion press often loses part drawings, so it is difficult to repair them properly on-site and to remanufacture them due to the lack of technical skills for maintenance. Therefore, a systematic remanufacturing plan must be designed from dismantling the equipment. In this study, remanufacturing FMEA was devised to remanufacture old extrusion press. The risk priority was analyzed by considering the degree of damage to the recycled parts, the cycle due to breakage/damage during the extrusion process, and the value of recycling resources due to remanufacturing. To standardize the remanufacturing process, remanufactured FMEA was performed through part analysis according to the structural analysis of the extrusion press. In addition, remanufacturing priorities were selected for each part, while remanufacturing itself was studied for efficiency of resource circulation and product quality stabilization.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2012.05a
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• pp.1217-1218
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• 2012

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2012.05a
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• pp.909-910
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• 2012

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2012.05a
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• pp.1039-1040
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• 2012

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2013.05a
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• pp.1153-1154
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• 2013

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2013.05a
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• pp.1533-1534
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• 2013

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1995.10a
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• pp.210-213
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• 1995

In this study,the effect of both process parameters (wheel velocity, friction coefficients between die and billet, etc) and die-shape (abutment height and shape, flash gap, etc.) on the surface defect on forming process is theoretically investigated. For this work, computer simulation was performed by using the DEFORM, a commercial FEM code. Through numerous simulations with different parameters and die shapes, We propose one optimal die shape for CONFORM process which can remove surface defect.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2009.06a
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• pp.805-806
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• 2009

• Proceedings of the Korean Society of Tribologists and Lubrication Engineers Conference
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• 1995.06a
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• pp.1-10
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• 1995

베어링은 상대운동을 지지하거나 안내하는데 사용되는 부품으로 이의 특성은 원활하게 회전(또는 운동)할 수 있어야 하며 이와 관련된 내구성이 우수해야 하고 또한 신뢰성이 높아야 한다는 것이다. 원활한 회전을 하기위해서는 정밀도 높은 진원가공을 할 수 있어야 하며 이 특성은 베어링이 양산품 이라는 관점에서 경제성있는 생산을 해내야 하는 요구조선이 있다. 양산가공 기술로는 궤도륜에 해당하는 것으로 단조, 전조, 선삭, 연삭 가공기술이 있으며, 부품과 관련해서는 압출, 압조, 사출 가공기술이 있다. 이와 맞물려 양산 조립기술, 공작기계 제작 보수 기술, 정밀 측정기술이 필요하다고 하겠다.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1991.04a
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• pp.46-58
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• 1991

An upper-bound method is applied to determine the final-stage extrsuion load and the deformed configuration of extruded billet. A simple kinematically admissible velocity field for trhee-dimensional deformation at final-stage is proposed. From the proposed velocity field the upper-bound extrusion load, the velocity distribution and the configuration of extruded billet are determined byminimizing the otoal power consumption. Experiments are carried out with full-annealed commercial aluminum billets at room temperature by using different sizes of elliptic punches. The theroretical predictions both in extrusion load and deformed configuration of extruded billet are ingood agreements with the experimentalresults.