Technological CAD/CAM chain for automated polishing of geometrically complex workpieces

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Berend Denkena
  • Marc André Dittrich
  • Hai Nam Nguyen

Organisationseinheiten

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Details

OriginalspracheEnglisch
Titel des Sammelwerks6th CIRP Global Web Conference, CIRPe 2018
UntertitelEnvisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era
Herausgeber/-innenAlessandro Simeone, Paolo C. Priarone
Herausgeber (Verlag)Elsevier Science B.V.
Seiten313-317
Seitenumfang5
ISBN (elektronisch)9781510875692
PublikationsstatusVeröffentlicht - 24 Nov. 2018
Veranstaltung6th CIRP Global Web Conference, CIRPe 2018 -
Dauer: 23 Okt. 201825 Okt. 2018

Publikationsreihe

NameProcedia CIRP
Band78
ISSN (Print)2212-8271

Abstract

Despite recent advances in automation technology, geometrically complex workpieces are still often finished manually. An example for this is the post-processing of dental prostheses, which display exceptionally high surface requirements. Aiming for an improved quality assurance, this article presents a methodology for an adaptive tool path planning for polishing of geometrically complex workpieces. For this purpose, the initial roughness of the workpiece is determined using a machine-integrated measuring system. Next, suitable process parameters are selected based on machine knowledge and the adapted NC code of the polishing process is generated and simulated. The results of the simulation and the actual polishing process are compared afterwards and transformed into process knowledge. Thus, the adaption of the process parameters and the quality of the simulation are continuously improved. The article highlights the implementation of the methodology with special emphasis on the selection of the process parameters.

ASJC Scopus Sachgebiete

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Technological CAD/CAM chain for automated polishing of geometrically complex workpieces. / Denkena, Berend; Dittrich, Marc André; Nguyen, Hai Nam.
6th CIRP Global Web Conference, CIRPe 2018: Envisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era. Hrsg. / Alessandro Simeone; Paolo C. Priarone. Elsevier Science B.V., 2018. S. 313-317 (Procedia CIRP; Band 78).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Denkena, B, Dittrich, MA & Nguyen, HN 2018, Technological CAD/CAM chain for automated polishing of geometrically complex workpieces. in A Simeone & PC Priarone (Hrsg.), 6th CIRP Global Web Conference, CIRPe 2018: Envisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era. Procedia CIRP, Bd. 78, Elsevier Science B.V., S. 313-317, 6th CIRP Global Web Conference, CIRPe 2018, 23 Okt. 2018. https://doi.org/10.1016/j.procir.2018.09.049
Denkena, B., Dittrich, M. A., & Nguyen, H. N. (2018). Technological CAD/CAM chain for automated polishing of geometrically complex workpieces. In A. Simeone, & P. C. Priarone (Hrsg.), 6th CIRP Global Web Conference, CIRPe 2018: Envisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era (S. 313-317). (Procedia CIRP; Band 78). Elsevier Science B.V.. https://doi.org/10.1016/j.procir.2018.09.049
Denkena B, Dittrich MA, Nguyen HN. Technological CAD/CAM chain for automated polishing of geometrically complex workpieces. in Simeone A, Priarone PC, Hrsg., 6th CIRP Global Web Conference, CIRPe 2018: Envisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era. Elsevier Science B.V. 2018. S. 313-317. (Procedia CIRP). doi: 10.1016/j.procir.2018.09.049
Denkena, Berend ; Dittrich, Marc André ; Nguyen, Hai Nam. / Technological CAD/CAM chain for automated polishing of geometrically complex workpieces. 6th CIRP Global Web Conference, CIRPe 2018: Envisaging the Future Manufacturing, Design, Technologies and Systems in Innovation Era. Hrsg. / Alessandro Simeone ; Paolo C. Priarone. Elsevier Science B.V., 2018. S. 313-317 (Procedia CIRP).
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abstract = "Despite recent advances in automation technology, geometrically complex workpieces are still often finished manually. An example for this is the post-processing of dental prostheses, which display exceptionally high surface requirements. Aiming for an improved quality assurance, this article presents a methodology for an adaptive tool path planning for polishing of geometrically complex workpieces. For this purpose, the initial roughness of the workpiece is determined using a machine-integrated measuring system. Next, suitable process parameters are selected based on machine knowledge and the adapted NC code of the polishing process is generated and simulated. The results of the simulation and the actual polishing process are compared afterwards and transformed into process knowledge. Thus, the adaption of the process parameters and the quality of the simulation are continuously improved. The article highlights the implementation of the methodology with special emphasis on the selection of the process parameters.",
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AU - Denkena, Berend

AU - Dittrich, Marc André

AU - Nguyen, Hai Nam

N1 - Funding information: These investigations were funded by the German Federal Ministry of Economics and Energy (ZF4078502) and carried out in cooperation with the companies Akcurate GmbH and EVE Ernst Vetter GmbH. The authors thank our cooperation partners for their support in the project.

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AB - Despite recent advances in automation technology, geometrically complex workpieces are still often finished manually. An example for this is the post-processing of dental prostheses, which display exceptionally high surface requirements. Aiming for an improved quality assurance, this article presents a methodology for an adaptive tool path planning for polishing of geometrically complex workpieces. For this purpose, the initial roughness of the workpiece is determined using a machine-integrated measuring system. Next, suitable process parameters are selected based on machine knowledge and the adapted NC code of the polishing process is generated and simulated. The results of the simulation and the actual polishing process are compared afterwards and transformed into process knowledge. Thus, the adaption of the process parameters and the quality of the simulation are continuously improved. The article highlights the implementation of the methodology with special emphasis on the selection of the process parameters.

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