The idea of machining process planning with alternative routes in form of non-cyclic graph for capp implementation

• Autorzy: Habel J.

Warianty tytułu

PL

Planowanie procesów technologicznych obróbki z zapisem wariantów w formie grafów niecyklicznych dla potrzeb CAPP

• Języki publikacji: EN

Abstrakty

EN

The paper presents the formal method of recording the alternatives of machining process plan. This method based on levels distinguished in hierarchical structure of process, where alternatives can be created. The algorithm for linking intermediate states of workpiece was developed. It enables to change series of linear processes into one network of alternative plans in the form of non-cyclic graph.

PL

W artykule przedstawiono metodę zapisu wielowariantowych procesów technologicznych dla obróbki skrawaniem. Podstawą tego zapisu było wydzielenie poziomów, na których w hierarchicznej strukturze procesu mogą powstawać warianty. Następnie opracowano algorytm łączenia stanów pośrednich, dzięki któremu z początkowo liniowych wariantów procesów tworzona jest sieć wariantów w postaci grafu niecyklicznego.

Słowa kluczowe

EN

CAPP; alternative process plans; machining

PL

CAPP; wariantowe procesy technologiczne; obróbka skrawaniem

• Wydawca: Wydawnictwo Politechniki Krakowskiej im. Tadeusza Kościuszki
• Czasopismo: Czasopismo Techniczne. Mechanika
• Rocznik: 2013
• Tom: R. 110, z. 1-M
• Strony: 145--153
• Opis fizyczny: Bibliogr. 12 poz., wz., il.

Twórcy

autor

Habel J.

• Institute of Production Engineering, Faculty of Mechanical Engineering, Cracow University of Technology

Bibliografia

• [1] Chang T.Ch., Expert Process Planning for Manufacturing, Addison-Wesley Publishing Company, USA 1990.
• [2] Chryssolouris G., Manufacturing systems, theory and practice, Springer-Verlag, USA 1992.
• [3] Duda J., Habel J., Pobożniak J., Control mechanism of expert system with representation of knowledge in the form of hierarchical decision nets, Proceedings of 12th International Conference on Applications of Artificial Intelligence in Engineering, AIENG XII, Wessex Institute of Technology UK, Capri, Italy, July 1997.
• [4] Duda J., Habel J., Kwatera M., Samek A., Data Base with open architecture for defining Manufacture System Capabilities, Proceedings of the 9th FAIM International Conference, Tilburg, Nederlands 1999.
• [5] Duda J., Semigenerative System for Manufacturing Process Planning, Proceedings of the 10th FAIM International Conference, University of Maryland, USA, Vol. 2, 2000, 1007-1016.
• [6] Duda J., Habel J., Pobożniak J., Repository of Knowledge for Manufacturing Process Planning, Proceedings of the 15th FAIM International Conference, Deusto University Bilbao, Spain 2005, 171-178.
• [7] Habel J., The Idea of Integrated Manufacturing Process Planning System, Proceedings of 16th FAIM International Conference, University of Limerick, Irland, June 2006, 185-192.
• [8] Pobożniak J., Integration of CAD and Generative CAPP Based on Feature Technology, Proceedings of the 3rd International Symposium on Intelligent Manufacturing Systems, Turkey 2001.
• [9] Sormaz D.N., Khoshnevis B., Generation of alternative process plans in integrated manufacturing systems, Journal of Intelligent Manufacturing, vol. 14, 2003, 509-526.
• [10] Sormaz D.N., Arumugam J., Harihara R.S., Patel C., Neerukonda N., Integration of product design, process planning, scheduling and FMS control using XML data representation, Journal of Robotics and Computer-Integrated Manufacturing, vol. 26, 2010, 583-595.
• [11] Tan W., Khoshnevis B., Integration of process planning and schedulling – a review, Journal of Intelligent Manufacturing, vol. 11, 2000, 51-63.
• [12] Yang Y.N., Parsaei H.R., Leep H.R., A prototype of a feature-based multiple-alternative process planning system with scheduling verification, Journal of Computers & Industrial Engineering, vol. 39, 2001, 109-124.