[AULIN, V. V. – TYKHYI, A. A. 2017. Tribophysical Bases of Increasing Wear Resistance and Reliability of Working Parts of Soil Cultivating Machines with Cutting Elements: monograph. Kropyvnytskyi, 279 pp.]Search in Google Scholar
[AULIN, V. V. – TYKHYI, A. A. 2016a. Dynamics of wear of cutting elements of working parts of soil-cultivating machines while interacting with soil. MOTROL: Commission of Motorization and Energetics in Agriculture. In An International Journal on Operation of Farm and Agri-Food Industry Machinery, vol. 18, no. 2, pp. 41–48.]Search in Google Scholar
[AULIN, V. V. 2014. Physical Bases of Processes and Conditions of Self-Organization in Tribo-Technical Systems: monograph. Kropyvnytskyi, 370 pp. ISBN 978-966-2570-91-5.]Search in Google Scholar
[AULIN, V. – ARIFA, W. – LYSENKO, S. – KUZYK, A. 2016b. Improving of the wear resistance of working parts agricultural machinery by the implementation of the effect of self-sharpening. In International Journal of Engineering and Technology (UAE), vol. 5, no. 4, pp. 126–130.10.14419/ijet.v5i4.6386]Search in Google Scholar
[AULIN, V. V. – TYKHYI, A. A. 2010. Dynamics of change of stress-deformed and deteriorated state of cutting element of workings organs of tillage machines at various variants of hardening. In Problems of Tribology, vol. 10, pp. 54–59.]Search in Google Scholar
[BERIS, A. N. – TSAMOPOULOS, J. A. – ARMSTRONG, R. C. – BROWN, R. A. 1985. Creeping motion of a sphere through a Bingham plastic. In Journal of Fluid Mechanics, vol. 158, pp.219–244.10.1017/S0022112085002622]Search in Google Scholar
[BIRD, R. B. – DAI, G. C. – YARUSSO, B. J. 1983. The rheology and flow of visco-plastic materials. In Reviews in Chemical Engineering, vol. 1, pp.1–70.10.1515/revce-1983-0102]Search in Google Scholar
[HUANG, W. – LIU, D. Y. – ZHAO, B. Y. – FENG, Y. B. – XIA, Y. C. 2014. Study on the rheological properties and constitutive model of Shenzhen mucky soft soil. In Journal of Engineering Science and Technology Review, vol. 7, no. 3 pp. 55–61.10.25103/jestr.073.09]Search in Google Scholar
[KOVÁČ, I. – TOLNAI, R. 2006. An improvement in the mechanical properties of boron-saturated surface layers of steel 14 220 and 15 203. In Acta Technologica Agriculturae, vol. 9, no. 1, pp. 1–3.]Search in Google Scholar
[ĽUPTÁČIKOVÁ, V. – ŤAVODOVÁ, M. 2018. Methods for increasing the material resistance of the mulching tool body against its deformation in operation. In Technological Engineering, vol. 14, no. 2, pp. 17–20.10.1515/teen-2017-0015]Search in Google Scholar
[LUTSAK, D. – PRYSYAZHNYUK, P. – BURDA, M. – AULIN, V. 2016. Development of a method and an apparatus for tribotechnical tests of materials under loose abrasive friction. In Eastern European Journal of Enterprise Technologies, vol. 5, pp.19–26.10.15587/1729-4061.2016.79913]Search in Google Scholar
[ŤAVODOVÁ, M. – KALINCOVÁ, D. – KOTUS, M. – PAVLÍK, Ľ. 2018. The possibility of increasing the wearing resistance of mulcher tools. In Acta Technologica Agriculturae, vol. 21, no. 2, pp. 94–100.10.2478/ata-2018-0016]Search in Google Scholar
[TEAMRAT, A. G. – DANI, O. R. 2001 Rheological properties of wet soils and clays under steady and oscillatory stresses. In Soil Science Society of America Journal, vol. 65, no. 3, pp. 624–637.10.2136/sssaj2001.653624x]Search in Google Scholar
[TOLNAI, R. – ČIČO, P. – KOVÁČ, I. 2006. Impact strength of steels as a criterion of material resistance. In Acta Technologica Agriculturae, vol. 9, no. 1, pp. 17–19.]Search in Google Scholar
[VASYLKOVSKA, K. V. – LESHCHENKO, S. M. – VASYLKOVSKYI, O. M. – PETRENKO, D. I. 2016. Improvement of equipment for basic tillage and sowing as initial stage of harvest forecasting. In MATEH – Agricultural Engineering. Sep.–Dec., vol. 50, no. 3. pp. 13–20.]Search in Google Scholar