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Advanced In-Process Control System for Sheet Stamping and Tube Hydroforming Processes
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 622-623Advanced In-Process Control System for Sheet...

Advanced In-Process Control System for Sheet Stamping and Tube Hydroforming Processes

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Abstract:

A sophisticated servo press with the digital control has been developed and attracted attention in recent years. By utilizing its high function in-process, servo presses have a potential to enhance the forming limit and to improve quality and accuracy of product not only in sheet stamping but also in tube hydroforming processes. On the other hand, in-process control and adaptive process control technologies in metal forming processes using intelligent technique and soft computing have been investigated and developed previously. Nowadays we are in a good environment to realize further advanced adaptive in-process control in metal forming process. To further advance this technology, sensing system is essential element and it should be applied to feedback control optimally in their forming operation. This paper describes the current situation on advanced intelligent process control technology for sheet stamping and tube hydroforming processes on the basis of the research results by the author.

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Metal Forming 2014

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Periodical:

Key Engineering Materials (Volumes 622-623)

Pages:

3-14

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.622-623.3

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Online since:

September 2014

Authors:

Kenichi Manabe

Keywords:

BHF, In-Process Control, Intelligent Process Control, Loading Path, Optimization, Sheet Stamping, Tube Hydroforming

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] K. Manabe, H. Hamano, H. Nishimura, Journal of Japan Society for Technology of Plasticity, 29-330(1988) 740-747.

[2] N. Kawai, Transaction of Japan Society of Mechanical Engineers, 26-166 (1960) 850-873.

[3] K. Manabe, K. Soeda, T. Nagashima, H. Nishimura, Journal of Japan Society for Technology of Plasticity, 33-375 (1992) 423-428.

[4] S. Yoshihara, K. Manabe, H. Nishimura, Transaction of Japan Society of Mechanical Engineers, Series C，64-624 (1998) 3209-3215.

[5] K. Manabe, M. Yang, S. Yoshihara, J. Mater. Process. Technol. 80-81(1998) 421-426.

[6] K. Manabe, S. Yoshihara, M. Yang, H. Nishimura, Journal of Japan Society for Technology of Plasticity, 36-416 (1995) 1015-1022.

[7] S. Yoshihara, K. Manabe, M. Yang, H. Nishimura, Journal of Japan Society for Technology of Plasticity, 38-435 (1997) 348-353.

[8] S. Yoshihara, K. Manabe, M. Yang, H. Nishimura, Transaction of Japan Society of Mechanical Engineers, Series C, 64-626(1998) 4039-4044.

[9] H. Koyama, K. Manabe, S. Yoshihara, Proc. 2000 ASME Int. Mech. Eng. Congress & Exposition, MED-1. 11 (2000) 805-810.

[10] H. Koyama, K. Manabe, S. Yoshihara, Journal of Japan Society for Technology of Plasticity, 43-502 (2002) 1162-1167.

[11] K. Manabe, H. Koyama, Int. J. Mater. Product Technol., 32-4 (2008) 476-490.

[12] H. Koyama, R.H. Wagoner, K. Manabe, J. Mater. Process. Technol., 152 (2004) 190-196.

[13] T. Yagami, K. Manabe, M. Yang, Journal of Japan Society for Technology of Plasticity, 48-553(2007) 145-149.

[14] T. Yagami, K. Manabe, M. Yang, H. Koyama, J. Mater. Process. Technol., 155-156 (2004) 2099-2105.

[15] T. Yagami, K. Manabe, Journal of Japan Society for Technology of Plasticity, 48-553 (2007) 150-155.

[16] H. Koyama, K. Manabe, S. Yoshihara, J. Mater. Process. Technol., 138(2003) 343-348.

[17] H. Koyama, K. Manabe, J. Mater. Process. Technol., 143-144 (2003) 261-265.

[18] T. Yagami, K. Manabe, J. Solid Mech. Mater. Eng, 1-12 (2007) 1385-1396.

[19] K. Manabe, H. Koyama, S. Yoshihara,T. Yagami, J. Mater. Process. Technol., 125-126 (2002) 440-445.

[20] S. Yoshihara, K. Koyama and K. Manabe: Intelligent in a Materials World -selected Papers from IPMM2001- (2003), 765-769, CRC Press.

[21] K. Manabe, A. Shibata, S. Yoshihara, H. Nishimura, Proc. of the ASME Dynamics Systems & Control Division ASME1996, DSC-58 (1996) 175-182.

[22] A. Shibata, K. Manabe, H. Nishimura, Proc. 1993 Jpn. Spring Conf. Tech. Plasticity (1993) 65-68.

[23] K. Manabe：Amada Foundation Report, 19(2007) 20-24.

[24] K. Manabe, M. Suetake, H. Koyama, M. Yang, Int. J. Mach. Tools Manuf., 46-11 (2006) 1207-1211.

[25] K. Manabe, X. Chen, D. Kobayashi, Proc. 6th Int. Conf. Tube Hydroforming (TUBEHYDRO 2013), (2013) 204-208.

[26] K. Manabe, X. Chen, D. Kobayashi, Proc. 11th ICTP, (2014) submitted.