RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces

Thomas Spenger, Franz Haas, Ulrike Cihak-Bayr, Stefan J. Eder, Markus Weiss, Martin Weinzerl, Michael Schneider

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Abstract

The innovative RPM-Synchronous Grinding process enables highly efficient manufacturing of various geometries in an ordinary plunge grinding process. An oscillation of the infeed axis, which is coupled to the rotary workpiece spindle axis, like in conventional non-circular grinding approaches is not required. This is achieved by using a fixed ratio of grinding wheel- and workpiece speed and also a non-circular grinding wheel geometry. In this first test series, practice-orientated circular steel-workpieces are Synchro-Finish ground with conventional vitrified grinding wheels for finishing applications. The surface topography of the Synchro-Finished parts is evaluated and compared with conventionally ground workpieces.
Original languageEnglish
Title of host publicationProcedia CIRP
Subtitle of host publication52nd CIRP Conference on Manufacturing Systems (CMS)
EditorsPeter Butala, Edvard Govekar, Rok Vrabič
PublisherElsevier B.V.
Pages476-481
Number of pages6
Volume81
DOIs
Publication statusPublished - 2019
Event52nd CIRP Conference on Manufacturing Systems - Ljubljana, Slovenia
Duration: 12 Jun 201914 Jun 2019
https://www.cirp-cms2019.org/

Conference

Conference52nd CIRP Conference on Manufacturing Systems
Abbreviated titleCIRP CMS 2019
CountrySlovenia
CityLjubljana
Period12/06/1914/06/19
Internet address

Keywords

    Cite this

    Spenger, T., Haas, F., Cihak-Bayr, U., Eder, S. J., Weiss, M., Weinzerl, M., & Schneider, M. (2019). RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces. In P. Butala, E. Govekar, & R. Vrabič (Eds.), Procedia CIRP: 52nd CIRP Conference on Manufacturing Systems (CMS) (Vol. 81, pp. 476-481). Elsevier B.V.. https://doi.org/10.1016/j.procir.2019.03.122

    RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces. / Spenger, Thomas; Haas, Franz; Cihak-Bayr, Ulrike; Eder, Stefan J.; Weiss, Markus; Weinzerl, Martin; Schneider, Michael.

    Procedia CIRP: 52nd CIRP Conference on Manufacturing Systems (CMS). ed. / Peter Butala; Edvard Govekar; Rok Vrabič. Vol. 81 Elsevier B.V., 2019. p. 476-481.

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

    Spenger, T, Haas, F, Cihak-Bayr, U, Eder, SJ, Weiss, M, Weinzerl, M & Schneider, M 2019, RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces. in P Butala, E Govekar & R Vrabič (eds), Procedia CIRP: 52nd CIRP Conference on Manufacturing Systems (CMS). vol. 81, Elsevier B.V., pp. 476-481, 52nd CIRP Conference on Manufacturing Systems, Ljubljana, Slovenia, 12/06/19. https://doi.org/10.1016/j.procir.2019.03.122
    Spenger T, Haas F, Cihak-Bayr U, Eder SJ, Weiss M, Weinzerl M et al. RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces. In Butala P, Govekar E, Vrabič R, editors, Procedia CIRP: 52nd CIRP Conference on Manufacturing Systems (CMS). Vol. 81. Elsevier B.V. 2019. p. 476-481 https://doi.org/10.1016/j.procir.2019.03.122
    Spenger, Thomas ; Haas, Franz ; Cihak-Bayr, Ulrike ; Eder, Stefan J. ; Weiss, Markus ; Weinzerl, Martin ; Schneider, Michael. / RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces. Procedia CIRP: 52nd CIRP Conference on Manufacturing Systems (CMS). editor / Peter Butala ; Edvard Govekar ; Rok Vrabič. Vol. 81 Elsevier B.V., 2019. pp. 476-481
    @inproceedings{9469affdc885463bb1717acb7b2c8bbc,
    title = "RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces",
    abstract = "The innovative RPM-Synchronous Grinding process enables highly efficient manufacturing of various geometries in an ordinary plunge grinding process. An oscillation of the infeed axis, which is coupled to the rotary workpiece spindle axis, like in conventional non-circular grinding approaches is not required. This is achieved by using a fixed ratio of grinding wheel- and workpiece speed and also a non-circular grinding wheel geometry. In this first test series, practice-orientated circular steel-workpieces are Synchro-Finish ground with conventional vitrified grinding wheels for finishing applications. The surface topography of the Synchro-Finished parts is evaluated and compared with conventionally ground workpieces.",
    keywords = "RPM-synchronous grinding, RSG, grinding, finishing, synchro-finish, surface topography",
    author = "Thomas Spenger and Franz Haas and Ulrike Cihak-Bayr and Eder, {Stefan J.} and Markus Weiss and Martin Weinzerl and Michael Schneider",
    year = "2019",
    doi = "10.1016/j.procir.2019.03.122",
    language = "English",
    volume = "81",
    pages = "476--481",
    editor = "Peter Butala and Edvard Govekar and Rok Vrabič",
    booktitle = "Procedia CIRP",
    publisher = "Elsevier B.V.",
    address = "Netherlands",

    }

    TY - GEN

    T1 - RPM-SYNCHRONOUS GRINDING - Investigation and comparison of surface topography of Synchro-Finish manufactured workpieces

    AU - Spenger, Thomas

    AU - Haas, Franz

    AU - Cihak-Bayr, Ulrike

    AU - Eder, Stefan J.

    AU - Weiss, Markus

    AU - Weinzerl, Martin

    AU - Schneider, Michael

    PY - 2019

    Y1 - 2019

    N2 - The innovative RPM-Synchronous Grinding process enables highly efficient manufacturing of various geometries in an ordinary plunge grinding process. An oscillation of the infeed axis, which is coupled to the rotary workpiece spindle axis, like in conventional non-circular grinding approaches is not required. This is achieved by using a fixed ratio of grinding wheel- and workpiece speed and also a non-circular grinding wheel geometry. In this first test series, practice-orientated circular steel-workpieces are Synchro-Finish ground with conventional vitrified grinding wheels for finishing applications. The surface topography of the Synchro-Finished parts is evaluated and compared with conventionally ground workpieces.

    AB - The innovative RPM-Synchronous Grinding process enables highly efficient manufacturing of various geometries in an ordinary plunge grinding process. An oscillation of the infeed axis, which is coupled to the rotary workpiece spindle axis, like in conventional non-circular grinding approaches is not required. This is achieved by using a fixed ratio of grinding wheel- and workpiece speed and also a non-circular grinding wheel geometry. In this first test series, practice-orientated circular steel-workpieces are Synchro-Finish ground with conventional vitrified grinding wheels for finishing applications. The surface topography of the Synchro-Finished parts is evaluated and compared with conventionally ground workpieces.

    KW - RPM-synchronous grinding

    KW - RSG

    KW - grinding

    KW - finishing

    KW - synchro-finish

    KW - surface topography

    U2 - 10.1016/j.procir.2019.03.122

    DO - 10.1016/j.procir.2019.03.122

    M3 - Conference contribution

    VL - 81

    SP - 476

    EP - 481

    BT - Procedia CIRP

    A2 - Butala, Peter

    A2 - Govekar, Edvard

    A2 - Vrabič, Rok

    PB - Elsevier B.V.

    ER -