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Warianty tytułu
Języki publikacji
Abstrakty
Purpose: of this paper: During the recent 10-15 years, Computer Aided Process Planning and Die Design evolved as one of the most important engineering tools in sheet metal forming, particularly in the automotive industry. This emerging role is strongly emphasized by the rapid development of Finite Element Modelling, as well. The purpose of this paper is to give a general overview about the recent achievements in this very important field of sheet metal forming and to introduce some special results in this development activity. Design/methodology/approach: Concerning the CAE activities in sheet metal forming, there are two main approaches: one of them may be regarded as knowledge based process planning, whilst the other as simulation based process planning. The author attempts to integrate these two separate developments in knowledge and simulation based approach by linking commercial CAD and FEM systems. Findings: Applying the above approach a more powerful and efficient process planning and die design solution can be achieved radically reducing the time and cost of product development cycle and improving product quality. Research limitations/implications: Due to the different modelling approaches in CAD and FEM systems, the biggest challenge is to enhance the robustness of data exchange capabilities between various systems to provide an even more streamlined information flow. Practical implications: The proposed integrated solutions have great practical importance to improve the global competitiveness of sheet metal forming in the very important segment of industry. Originality/value: The concept described in this paper may have specific value both for process planning and die design engineers.
Wydawca
Rocznik
Tom
Strony
435--442
Opis fizyczny
Bibliogr. 19 poz., rys.
Twórcy
autor
- Department of Manufacturing Technologies, Research Group of Hungarian Academy of Sciences, University of Miskolc, 3515 Miskolc-Egyetemváros, Hungary, tisza.miklos@uni-miskolc.hu
Bibliografia
- [1] S.K. Sitaraman, T. Altan, A Knowledge Based System for Process Sequence Design in Sheet Metal Forming, Journal of Materials Processing and Technology (1991) 247-271.
- [2] N. Alberti, L. Cannizaro, F. Micari, Knowledge Based Systems and FE Simulations in Metal Forming Processes, Annals of CIRP 40 (1991) 295-298.
- [3] L. Eshelby, M. Barash, W. Johnson, A Rule Based Modelling for Planning Axisymmetric Deep-drawing, Journal of Mechanics Sciences (1988) 1-113.
- [4] A. Makinouchi, Sheet Metal Forming Simulation, Journal of Materials Processing and Technology 60 (1996) 19-26.
- [5] A.E. Tekkaya, State of the art of Simulation in Sheet Metal Forming, Journal of Materials Processing and Technology 103 (2000) 14-22.
- [6] T. Altan et al., Simulation of Metal Forming Processes, Proceedings of the 6th International Conference ICTP, Nuremberg, 1999, 23.
- [7] M. Tisza, Numerical Modelling and Knowledge Based Systems in Metal Forming, Advanced Technology of Plasticity 1 (1999) 145-154.
- [8] M. Tisza, A Complete CAD/CAM System for Metal Forming, Proceedings of 2nd International Conference on CAD/CAM and Robotics, London, 1990, 110-117.
- [9] M. Tisza, Expert System for Sheet Metal Forming, Journal of Materials Processing and Technology (1995) 423-432.
- [10] C.T. Wang, Advanced Stamping Simulation Technology-State of Business and Industrial Prospect, Proceedings of the Numisheet Conference Besancon, 1999, 250-256.
- [11] T. Altan, V. Vasquez, New Concepts in Die Design-Physical and Computer Modelling, Journal of Materials Processing and Technology 98 (2000) 212-223.
- [12] C.T. Wang, Evolutions of Advanced Stamping CAE, Proceedings of the NumiSheet 2005 Conference, 2005, 78-82.
- [13] A. Tang et al., CAE Based Die Face Engineering Development, Proceedings of the NumiSheet2005, 2005, 50-60.
- [14] C.T. Wang, A Road Map for Simulation-Guided Die Tryout and Stamping Process Control, Proceedings of the NumiSheet 2005 Conference, 2005, 66-69.
- [15] C.T. Wang, An Industrial Outlook for Sprigback Predictability, Proceedings of the NumiSheet 2002, Jeju island, Korea, 2002, 597-604.
- [16] M. Tisza, Numerical Modelling and Simulation in Sheet Metal Forming, Journal of Materials Processing Technology 151 (2004) 58-62.
- [17] A. Andersson, Information Exchange within Tool Design and Sheet Metal Forming, Journal of Engineering Design 12 (2001) 283-291.
- [18] A. Andersson, Comparison of Sheet Metal Forming Simulation and Try-out Tools in Design of Forming Tools, Journal of Engineering Design 15 (2004) 551-561.
- [19] M. Tisza, Numerical Modelling and Simulation: Academic and Industrial Perspectives, Materials Science Forum 473-474 (2005) 407-414.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS5-0021-0027