Affiliation:
1. University of Yamanashi
Abstract
In the deep-drawing process, the application of low-frequency vibration to the blank material has recently been focused on with the aim of improving the friction performance between the die and the blank material. A servo-controlled press machine is suitable for applying low-frequency vibration to the blank during the deep-drawing process, because the punch speed and blank holder force (BHF) are easily controlled as process parameters by using the servo motors. In this study, a BHF with low-frequency vibration was proposed as a technique for improving deep-drawability, which is mainly affected by the friction performance and the lubricant condition. We found that the friction performance between the blank surface and the blank holder was decreased in the case of a BHF with low-frequency vibration since the lubricating oil rapidly flowed into the clearance during the forming process. Furthermore, for a BHF with low-frequency vibration, the punch force and the deformation resistance were lower than those in a deep-drawing test without low-frequency vibration.
Publisher
Trans Tech Publications, Ltd.
Reference7 articles.
1. H. Takuda, D. Inoue: Journal of the JSTP Vol. 43-503 (2002), pp.1173-1177. (in Japanese).
2. S. Tsuda: Journal of the JSTP Vol. 51-599 (2010), pp.1192-1193. (in Japanese).
3. Y. Tsuji, S. Yoshihara, S. Tsuda, Y. Iriyama, Y. Nakano: Proceedings of the ASME 2009 International Mechanical Engineering Congress & Exposition, IMECE2009-10947 (2009).
4. K. Siegert, M. Ziegler: Journal of Materials Process technology, Vol. 71 (1997), pp.126-133.
5. S. Ali, S. Hinduja, J. Atkinson, P. Bolt, R. Werkhoven: International Journal of Machine Tools and Manufacture, Vol. 48 (2008), pp.558-564.