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Machine tools are highly integrated mechatronic systems consisting of dedicated mechanic design and integrated electrical equipment – in particular drive systems and the CNC-control – to realize the complex relative motion of tool towards work piece. Beside the process related capabilities, like static and dynamic stiffness as well as accuracy behavior and deviation resistance against thermal influence, safety aspects are of major interest. The machine tool enclosure must fulfill multiple requirements like retention capabilities against the moving parts of broken tools, lose work pieces or clamping components. In regular use, the noise emission have to be inhibited at the greatest possible extent by the machine tool enclosure. Nevertheless, the loading door and the moving parts of the workspace envelope are interfaces where noise transmission is harder to be avoided and therefore local noise emissions increase. The aim of the objective investigation is to analyse the noise emission of machine tools to determine the local noise transmission of a machine tool enclosure by using arrays of microphones. By the use of this measuring method, outer surfaces at the front, the side and on the top of the enclosure have been scanned. The local transient acoustic pressures have been recorded using a standard noise source placed on the machine table. In addition, an exemplary manufacturing process has been performed to analyse the frequency dependent location resolved sound emissions.
Słowa kluczowe
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Tom
Strony
5--16
Opis fizyczny
Bibliogr. 10 poz., rys.
Twórcy
autor
- Institute of Production Engineering and Laser Technology, TU Wien
autor
- Austrian Institute of Technology, Center for Energy, Sustainable Thermal Engineering, Wien
autor
- Department of Geography, Earth Observation and Modelling, Kiel University, Germany
autor
- Austrian Institute of Technology, Center for Energy, Sustainable Thermal Engineering, Wien
autor
- Institute of Production Engineering and Laser Technology, TU Wien
autor
- Institute of Production Engineering and Laser Technology, TU Wien
Bibliografia
- [1] FU Q., RASHID A., NICOLESCU C.M., 2013, Improving Machining Performance Against Regenerative Tool Chatter Through Adaptive Normal Pressure at the Tool Clamping Interface, Journal of Machine Engineering, 13/1, 93–105.
- [2] GROSSI N., SCIPPA A., SALLESE L., MONTEVECCHI F., CAMPATELLI G., 2018, On the generation of chatter marks in peripheral milling: A spectral interpretation, International Journal of Machine Tools and Manufacture, 133, 31–46.
- [3] TEKINER Z., YESLYURT S., 2004, Investigation of the cutting parameters depending on process sound during turning of AISI 304 austenitic stainless steel, Materials and Design, 25, 507–513.
- [4] SARRADJ E., 2010, A fast signal subspace approach for the determination of absolute levels from phased microphone array measurements, Journal of Sound and Vibration, 329, 1553–1569.
- [5] RECH J., DUMONT F., LE BOT A., ARRAZOLA P.J., 2017, Reduction of noise during milling operations, CIRP Journal of Manufacturing Science and Technology, 18, 39–44.
- [6] MUELLER T., 2002, Aeroacoustic Measurements, Springer.
- [7] SIJTSMA P., 2009, Clean based on spatial source coherence, Int. J. Aeroacoustics, 6, 357–374.
- [8] KOLLMANN F., SCHOESSER T., ANGERT R., 2006, Praktische Maschinenakustik, Springer, ISBN-103-540-20094-0.
- [9] PRIME Z., DOOLAN C., 2013, A comparison of popular beamforming arrays, Proceedings of ACOUSTICS 2013,Victor Harbor, Australian Acoustical Society, 1–7.
- [10] LACHAT E., MACHER H., MITTET M., LANDES T., GRUSSENMEYER P., 2015, First experiences with Kinect V sensor for close range 3D modelling, ISPRS, International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL-5/W4, 93–100.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d2b5658c-53b1-45d8-bd84-31647fdd28f8