Browse > Article
http://dx.doi.org/10.14775/ksmpe.2016.15.3.028

Development of Forging Parts for Solar Electrode Body Using Oxygen-Free Copper Material  

Park, Dong-Hwan (Gyeongbuk Hybrid Technology Institute)
Tak, Yun-Hak (Gyeongbuk Hybrid Technology Institute)
Publication Information
Journal of the Korean Society of Manufacturing Process Engineers / v.15, no.3, 2016 , pp. 28-35 More about this Journal
Abstract
Forging operations are non-stationary processes occurring because of indirect pressure, generally, under conditions of three-dimensional stress and deformation. Furthermore, due to friction and the constraints of die geometry, deformation is not homogeneous. Material flow and deformation are largely determined by the shape of the tools. It is well known that net-shape forging can improve the mechanical strength of the final product as well as reduce material waste. Oxygen-free copper that is used for electrical and electronic components has excellent electrical and thermal conductivity. Oxygen-free copper parts have a low productivity in cutting process. Thus, the forging process is performed in order to improve the low productivity in cutting process. The forging of oxygen-free copper for electrode body parts was modeled using finite element simulation and forging experiments that were conducted for producing electrode body parts at room temperature. In order to reduce the cost of cutting products, the forging was performed in a closed cavity to obtain near-net or net-shape parts.
Keywords
Solar Light; Electrode Body; Oxygen-Free Copper; Forging Technology; Extrusion Work;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 Kim, K. Y. and Jo, H. H., "Overview on Manufacturing of Oxygen Free Copper," Trends in Metals & Materials Engineering, Vol. 21, No. 2, pp. 4-11, 2008.
2 Choi, G. S., Kim, M. S., Lim, J. W., and Kim, S. K., "Current State of Ultra-High Purification Technology of Copper and Applications," Trends in Metals & Materials Engineering, Vol. 21, No. 2, pp. 12-20, 2008.
3 Ko, E. M., "The Trend of Polysilicon Industry and Production Process," POSCO Engineering, Vol. 27, No. 1, pp. 143-149, 2011.
4 ASTM E9-09, Standard Test Methods of Compression Testing of Metallic Materials at Room Temperature.
5 Kwon, H. H., Song, S. E., and Kim, O. S., "Finite Element Analysis on the Cold Forging Process of the Unified Universal Shaft Joint for the Automobile," Journal of the Korean Society of Manufacturing Technology Engineers, Vol. 20, No. 5, pp. 582-588, 2011.
6 Kim, H. S. and Youn, J. W., "Development of Cold Forging Process of Hollow-type Wheel Nut Wrench for Commercial Vehicles," Transactions of Materials Processing, Vol. 21, No. 8, pp. 493-498, 2012.   DOI
7 Lee, I. S., Je, J. S., Kim, Y. R. and Kim, B. M., "Optimization of Coating Process of Water-Based Lubricant for Cold Forging," Transactions of Materials Processing, Vol. 15, No. 7, pp. 485-489, 2006.   DOI
8 Lim, W. J., Lee, I. S., Je, J. S., Ko, D. C. and Kim, B. M., "Evaluation of Water-Soluble Lubricant for Cold Forging and Optimization of Coating Process," KSTP Conference, pp. 149-154, 2007.
9 KS B 0608, Indications of Geometrical Tolerance on Drawings.