Intelligent Adaptation of Axisymmetric Solid Parts in Machining Process Planning by Case Based Reasoning. García, A., Lancho, R., Aleaga, A., Rodríguez, A., & Leyva, L. International Journal of Intelligent Engineering and Systems, 10(3):245-253, 6, 2017.
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Website doi abstract bibtex 1 download © 2019, Associacao Iberica de Sistemas e Tecnologias de Informacao. All rights reserved. This research deals with the problem of the technological conception routes in the machining process planning (CAPP) for symmetrical parts with cavities under the approach of Case Based Reasoning (CBR). It includes shaft, bushing and disc type parts because of their frequent use in the metal-mechanical industry. A data model for feature-based representation was created, which contains the geometric, dimensional and technological information required for its elaboration. The technological machining route of a case study was obtained from the adaptation of the route of a prototype piece recovered from a base of cases by means of Artificial Intelligence (AI), based on the peripheral cutting index (PCI-2D) and the index of geometric form (IGF) that is supported by the Feature-based Representation. Its application extends to conventional and CNC technology.
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title = {Intelligent Adaptation of Axisymmetric Solid Parts in Machining Process Planning by Case Based Reasoning},
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abstract = {© 2019, Associacao Iberica de Sistemas e Tecnologias de Informacao. All rights reserved. This research deals with the problem of the technological conception routes in the machining process planning (CAPP) for symmetrical parts with cavities under the approach of Case Based Reasoning (CBR). It includes shaft, bushing and disc type parts because of their frequent use in the metal-mechanical industry. A data model for feature-based representation was created, which contains the geometric, dimensional and technological information required for its elaboration. The technological machining route of a case study was obtained from the adaptation of the route of a prototype piece recovered from a base of cases by means of Artificial Intelligence (AI), based on the peripheral cutting index (PCI-2D) and the index of geometric form (IGF) that is supported by the Feature-based Representation. Its application extends to conventional and CNC technology.},
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author = {García, Alexis and Lancho, Ricardo and Aleaga, Arlys and Rodríguez, Alexis and Leyva, Leonardo},
doi = {10.22266/ijies2017.0630.27},
journal = {International Journal of Intelligent Engineering and Systems},
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