Possibilities of Using Ecological Fluid in Agriculture

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This paper deals with the issue of using ecological oils in the sliding pair of hydraulic and transmission systems working in the area of agriculture. The sliding pair included a B 60 bearing and a journal with contact surface made of 14 220 steel. The experimental tests were carried out with two oils: the Fuchs Plantohyd 46 S ecological oil and PP 80 reference oil (producer: Slovnaft) which is a commonly used lubricant in given conditions. The results of the experiments were statistically processed and based on them, friction coefficient and temperature, both depending on the test duration, was evaluated. Consequently, the weight loss and roughness change of both tribological elements were statistically processed.

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61-66

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December 2014

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[1] M. Kadnár, J. Rusnák, Ekologické oleje aplikované do oblasti klzných uložení : metódy, prístroje a interpretácia (monografia), 1st ed., Slovak University of Agriculture in Nitra, Nitra, (2008).

DOI: 10.15276/opu.2.58.2019.01

Google Scholar

[2] R. Majdan, B. Stančík, I. Vitázek, R. Abrahám, F. Tóth, I. Štulajter, The influence of biodegradable fluids on deterioration of the hydraulic pumps elements, Naučni trudove : zemedelska technika i technologii, agrarni nauki i veterinarna medicina, remont i nadeždnosť, 51(1. 1) (2012).

Google Scholar

[3] M. Kučera, R. Choťeborský, Analysis of the process of abrasive wear under experimental conditions, Scientia Agriculturae Bohemica, 44(2) (2013) 102–106.

DOI: 10.7160/sab.2013.440206

Google Scholar

[4] R. Majdan, Z. Tkáč, J. Tulík, J. Kosiba, P. Zigiň, Ľ. Bureš, Vyhodnotenie skúšky ekologickej hydraulickej kvapaliny na základe prietokovej účinnosti hydrogenerátora, Acta Technologica Agriculturae, 13(3) (2010) 61–64.

Google Scholar

[5] F. Tóth, J. Rusnák, M. Kadnár, V. Váliková, Study of tribological properties of chosen types of environmentally friendly oils in combined friction conditions, Journal of Central European Agriculture, 15(1) (2014) 185–192.

DOI: 10.5513/jcea01/15.1.1432

Google Scholar

[6] F. Tóth, J. Rusnák, M. Kadnár, P. Kostoláni, Experimentálne skúšky vybraných ekologických olejov v podmienkach zmiešaného trenia, in: Nové trendy v konštruovaní a v tvorbe technickej dokumentácie 2013, Slovak University of Agriculture in Nitra, Nitra, 2013, p.123.

DOI: 10.5513/jcea01/15.1.1432

Google Scholar

[7] Z. Tkáč, R. Majdan, Š. Drabant, J. Jablonický, R. Abrahám, P. Cvíčela, The accelerated laboratory test of biodegradable fluid type ERTTO, Research in Agricultural Engineering, 56(1) (2010) 18–25.

DOI: 10.17221/26/2009-rae

Google Scholar

[8] M. Kadnár et al., The design and verification of experimental machine for real journal bearing testing, Technički Vjestnik, 18(1) (2011) 95–98.

Google Scholar

[9] P. Kostoláni, M. Kučera, F. Tóth, Vplyv tribologického experimentu na opotrebenie prvkov trecej dvojice, in: Nové trendy v konštruovaní a v tvorbe technickej dokumentácie 2013, Slovak University of Agriculture in Nitra, Nitra, 2013, p.93–98.

Google Scholar

[10] F. Tóth, J. Rusnák, M. Kadnár, P. Čavojský, Effect of selected ecological lubricants on the wear of defined sliding bearing, Acta Technologica Agriculturae, 17(1) (2014) 13–16.

DOI: 10.2478/ata-2014-0003

Google Scholar

[11] J. Rusnák et al., Measurement of titanium surface roughness created by non-conventional cutting technology, Research in Agricultural Engineering, 57(special iss. ) (2011) S57–S60.

DOI: 10.17221/48/2010-rae

Google Scholar

[12] J. Valíček et al., Shadow method for the evaluation of surface created by hydroabrasive dividing of materials, Research in Agricultural Engineering, 57(special iss. ) (2011) S69–S73.

DOI: 10.17221/49/2010-rae

Google Scholar

[13] M. Kušnerová et al., Determination of technologically optimal factors of modulated waterjet, International Journal of Advanced Manufacturing Technology, 60 (1–4) (2012) 173–179.

DOI: 10.1007/s00170-011-3602-1

Google Scholar

[14] M. Kušnerová et al., Innovative approach to advanced modulated waterjet technology, Technical Gazette, 19(3) (2012) 475–480.

Google Scholar

[15] Š. Álló, T. Pauliček, V. Kročko, J. Maga, M. Korenko, Evaluation of corrosion stability in the automotive industry, in: Tudományos diákköri konferencia, Szent István Egyetem, Gödöllő, (2012).

Google Scholar

[16] J. Rusnák, M. Kadnár, F. Tóth, M. Kročko, Possibilities of using the ecological oil Arnica S 46 in agricultural engineering, Journal of Central European Agriculture, 14(4) (2013) 1444–1455.

DOI: 10.5513/jcea01/14.4.1376

Google Scholar

[17] V. Kročko, Š. Álló, M. Korenko, J. Žitňanský, Valuation of the technologies of surface treatments for automobile components, in: Naučni trudove : zemedelska technika i technologii, agrarni nauki i beterinarna medicina, remont i nadeždnosť, Angel Kanchev University of Ruse, Ruse, Bulgaria, 2008, p.76.

DOI: 10.22616/rrd.27.2021.024

Google Scholar