Abstract
The dimensioning of multistage machining processes consisting of roughing and finishing operations requires a linked consideration of the transformation of target values over all stages. The analytical hierarchy approach (AHP) is used to solve the arising multi-criteria problem regarding technologic and economic criteria based on empirical process models. Therefore, the presented concept includes existing interdependencies by the means of transfer values leading to an effective and comprehensible dimensioning of multistage machining processes. The concept is implemented into a software prototype programmed in JAVA. Individual process stages, targets and criteria can be implemented by the decision maker. The resulting overall target function consists of preference multipliers and standardized sub-criteria functions weighted by AHP. High values of the target-function point out combinations of process parameters for each stage that yield to a multi-criteria optimized multistage process. The concept is exemplary illustrated by means of a multistage grinding operation for 4-cylinder crankshafts.
Keywords
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References
Agapiou, J.S.: The Optimization of machining operations based on a combined criterion, Part 2: Multipass operations. Transactions of the ASME 114, 508–513 (1992)
Aurich, J.C., Biermann, D., Blum, H., Brecher, C., Carstensen, C., Denkena, B., Klocke, F., Kröger, M., Steinmann, P., Weinert, K.: Modelling and simulation of process-machine interaction in grinding, Production Engineering – Research and Development. Annals of the German Academic Society for Production Engineering 16(3), 111–120 (2009)
Becker, J.C.: Bahngesteuertes Schleifen von Kurbelwellen, Dr.-Thesis, Hannover (2004)
Böttler, E.: Konzept und technologische Grundlagen zum Aufbau eines Informationszentrums für die Schleifbearbeitung., Dr.-Thesis, Aachen (1979)
Busch, H.: Stochastische Optimierungsverfahren zur Produktionssteuerung von Walzstraßen, PhD-Thesis, Clausthal-Zellerfeld, Germany (2005)
Choi, T., Subrahmanya, N., Li, H., Shin, Y.C.: Practical Generalized Models for Cylindrical Grinding Processes. International Journal of Machine Tools and Manufacture (48), 61–72 (2008)
Czenkusch, C.: Technologische Untersuchungen zum Außenrundschleifen, Dr.-Thesis, VDI Verlag, Hannover, Germany (2000)
Denkena, B., Rudzio, H., Brandes, A.: Methodology for Dimensioning Technological Interfaces of Manufacturing Process Chains. Annals of the CIRP 55(1), 497–501 (2006)
Denkena, B., Brandes, A., Henning, H., Rabinovitch, A.: Multilevel process dimensioning regarding contrary target values. In: Proceedings of the 6th EUROSIM Congress on Modelling and Simulation, Ljubljana, Slovenia, September 9-13, vol. 2 (2007)
Denkena, B., Boehnke, D., de León, L.: Machining induced residual stress in structural aluminium parts. Production Engineering – Research and Development, Annals of the German Academic Society for Production Engineering 15(2), 247–253 (2008)
Dombrowski, U., Horatzek, S., Bothe, T.: Erfolgreiche Prozessmodellierung – Strukturiertes Vorgehen erleichtert das Erstellen von Prozessmodellen. ZWF 97(11), 584–587 (2002)
ElMaraghy, H.A., Kuzgunkaya, O., Urbanic, R.J.: Manufacturing Systems Configurations Complexity. Annals of CIRP 54(1), 445–450 (2005)
Etmanski, B.: Marktvorteile durch Schleiftechnik-Expertenwissen. VDI-Z 150(4), 42–43 (2008)
Eversheim, W.: Organisation in der Produktionstechnik – Arbeitsvorbereitung, 3rd edn. Springer, Berlin (1997)
Geldermann, J.: Mehrzielentscheidungen in der industriellen Produktion, Dr.-Thesis, Karlsruhe, Germany (2006)
Gsell, H., Triemer, S.: Abschusskandidat Arbeitsvorbereitung, it, vol. 9, pp. 64–67 (2000)
Mason, R.L., Gunst, R.F., Hess, J.L.: Stastical Design and Analysis of Experiments, 2nd edn. John Wiley & Sons Publications, New Jersey (2003)
Mehnen. J., Mehrkriterielle Optimierverfahren für produktionstechnische Prozesse, Habil.-Thesis, Dortmund, Germany (2005)
Monostori, L., Viharos, Z.J.: Hybrid, AI- and simulation-supported optimisation of process chains and production plants. Annals of the CIRP 50(1), 353–356 (2001)
Mushardt, H.: Beitrag zur Optimieruxng mehrstufiger Schleifprozesse, Dr.-Thesis, Braunschweig, Germany (1980)
Paul, T.: Konzept für ein Schleiftechnologisches Informationssystem, Dr.-Thesis, Hannover, Germany (1994)
Rommelfanger, J., Eickemeier, S.H.: Entscheidungstheorie: Klassische Konzepte und Fuzzy-Erweiterungen. Springer, Berlin (2002)
Saaty, T.L., Vargas, L.G.: Models, methods, concepts & applications of the analytic hierarchy process. Kluwer Academic Publishers, Boston (2001)
Saravan, R.: Manufacturing Optimization through intelligent techniques. Talyor & Francis Group, Boca Rotan (2006)
Stachowiak, H.,: Allgemeine Modelltheorie. Springer, Heidelberg (1973)
Spur, G., Uhlmann, E., Laufer, J., Szulczynski, H.: Effective Mechanisms of Cooling Lubrication in Grinding Mard Metal. Production Engineering – Research and Development, Annals of the German Academic Society for Production Engineering 7(2), 53–56 (2000)
Tönshoff, H.K., Denkena, B.: Spanen: Grundlagen, 2nd edn. Springer, Berlin (2004)
Trommer, G.: Methodik zur konstruktionsbegleitenden Generierung und Bewertung alternativer Fertigungsfolgen, Dr.-Thesis, Aachen, Germany (2001)
Winston, W.L.: Operations Research – Applications and Algorithms, 4th edn. Brooks/Cole, Belmont (2004)
Wittmann, M., Heinzel, C., Brinksmeier, E.: Evaluating the Efficiency of Coolant Supply Systems in Grinding. Production Engineering – Research and Development, Annals of the German Academic Society for Production Engineering 11(2), 39–42 (2004)
Zangemeister, C.: Nutzwertanalyse in der Systemtechnik - eine Methodik zur multidimensionalen Bewertung und Auswahl von Projektalternativen, 4th edn., Wittmansche Buchhandlung, München, Germany (1970)
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Denkena, B., Henning, H., Henjes, J. (2010). Model-Based Dimensioning of Multistage Processes Regarding Multiple Criteria. In: Huang, G.Q., Mak, K.L., Maropoulos, P.G. (eds) Proceedings of the 6th CIRP-Sponsored International Conference on Digital Enterprise Technology. Advances in Intelligent and Soft Computing, vol 66. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-10430-5_80
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DOI: https://doi.org/10.1007/978-3-642-10430-5_80
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