https://doi.org/10.4081/jae.2021.1147

Geometric and kinematic parameters of vibrating knife in the development of cutting machines

Vol. 52 No. 3 (2021)
    Published:30 September 2021
    Vibration, cutting force, data, modeling, optimal values.
    Abstract Views: 781
    PDF: 336
    HTML: 9
    Publisher's note
    All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.

    Authors

    Artur Altunyan
    arturaltunyan@gmail.com
    Agricultural Engineering, Automation and Exploitation, Faculty of Agrarian Engineering, Armenian National Agrarian University, Yerevan, Armenia.
    Arshaluys Tarverdyan
    Scientific Research Institute for Agricultural Mechanization and Automation, Armenian National Agrarian University, Yerevan, Armenia.

    The process of cutting with a blade is largely applied in agricultural equipment and is used to process raw materials with different physical and mechanical properties. Nonetheless, the functional relation between the kinematic parameters of a vibroblade and the crucial power parameters of the vibration processing has not yet been studied in great depth so far. This type of studies is essential to create databases for further investigation and design of novel cutting machinery or technologies to ensure effective processing of vibrocutting. Our objective was to obtain the power characteristics of vibrocutting through laboratory experiments [using the example of vibrocutting of common reed (Phragmites australis)] and define the combination of factors (i.e., vibration amplitude, frequency and the blade feeding speed) at the minimum cutting force. The following relation of the blade feeding speed (V) and vibration speed of the toothed blade (Vt) has been established as optimal kinematic regime: K≅0.004. Tests have indicated that use of toothed blades for vibrocutting of the raw products of plant origin offers a greater advantage over the blades with flat edges. An optimal cutting regime, when energy expenses are at a minimum, was ensured with the following parameters of the vibroblade: vibration amplitude: 14 mm, frequency: 33.32 s–1, the blade feeding speed: 7.5×10–3m.

    Dimensions

    Altmetric

    PlumX Metrics

    Downloads

    Download data is not yet available.

    Citations

    Crossref
    Scopus
    Google Scholar
    Europe PMC
    Altunyan A.V. 2009. Developing a technology of stem cutting in dence medium. Technical Sciences Diss. Armenian Natioanal Agrarian University, Armenia [in Armenian].
    Blekhman I.I. 1994. Vibration mechanics. Phyzmatlit, Moscow, Russian Federation [in Russian].
    Blekhman I.I. 2013. Theory of vibration processes and devices. Vibration mechanics and vibration techniques. Ruda I Metalli, StP, Russian Federation [in Russian].
    Fedorenko I.Y. 2016. Vibration processes and devices in agro-industrial complex: monography, Altay SAU. Barnaul, Russian Federation [in Russian].
    Igathinathane C., Pordesimo L.O., Schilling M.W., Columbus E.P. 2011. Fast and simple measurement of cutting energy requirement of plant stalk and prediction model development. Ind. Crops Prod. 33:518-23. DOI: https://doi.org/10.1016/j.indcrop.2010.10.015
    Loveykin V., Dyachenko L. 2013. Experimental data on the parameters of the vibration plough with hydraulic vibrators. MOTROL. Commission of Motorization and Energetics in Agriculture, 15:15-22.
    Reznik N.Y. 1975. Theory of cutting with blade and basics of cutting devices. “Mashinostroyeniye”, Moscow, Russian Federation. [in Russian].
    Tarverdyan A.P. 2004. Essential principles for development of rotary cutting devices. Verlag Grauer, Beuren, Stuttgart, Germany.
    Tarverdyan A.P. 2014. Use of the theory of vibration in agricultural mechanics. “Gitutyun” Publishers, Yerevan, Armenia. [in Russian].
    Tarverdyan A.P., Altunyan A.V. 2009. The change of the friction force at vibration cutting. Inf. Technol. Manage. 3:228-38. [in Russian].
    Vibrations in the technology. 1978. Directory/Editorial board: V.N. Gelomey (chairperson). Mashinostroyeniye, Moscow, Russian Federation, Vol. 1-4. [in Russian].
    Vasilenko V.V., Vasilenko S.V., Achkasova N.N. 2018. Effect of vibration on resistance force of plough. Advances in Engineering Research, International scientific and practical conference "AgroSMART-2018", 151:779-83. DOI: https://doi.org/10.2991/agrosmart-18.2018.146
    Yarullin R.B. 2007. Intensification of technological processes of Agro-Industrial Complex using vibration machines. Technika V’Selskom Khozyaystve. 6:53-5. [in Russian].

    How to Cite

    Altunyan, A. and Tarverdyan, A. (2021) “Geometric and kinematic parameters of vibrating knife in the development of cutting machines”, Journal of Agricultural Engineering, 52(3). doi: 10.4081/jae.2021.1147.
    Copyright (c) 2021 the Author(s) Creative Commons License

    This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

    PAGEPress has chosen to apply the Creative Commons Attribution NonCommercial 4.0 International License (CC BY-NC 4.0) to all manuscripts to be published.


    Similar Articles

    1 2 3 4 5 6 7 8 9 10 > >> 

    You may also start an advanced similarity search for this article.