Original scientific paper
https://doi.org/10.5552/crojfe.2024.1171
Assessment of Tractor Tires Used in Forest Conditions in Terms of Traction Performance and Impact on Ground
Marek Brennensthul
; Wroclaw University of Environmental and Life Sciences Faculty of Life Sciences and Technology Institute of Agricultural Engineering Chelmonskiego str. 37 51-630, Wroclaw POLAND
*
Jarosław Czarnecki
; Wroclaw University of Environmental and Life Sciences Faculty of Life Sciences and Technology Institute of Agricultural Engineering Chelmonskiego str. 37 51-630, Wroclaw POLAND
Włodzimierz Białczyk
; Wroclaw University of Environmental and Life Sciences Faculty of Life Sciences and Technology Institute of Agricultural Engineering Chelmonskiego str. 37 51-630, Wroclaw POLAND
* Corresponding author.
Abstract
This paper presents the assessment of selected tractor tires used in forest conditions. The first element of this assessment is related to tractive properties, while the second part concerns the potential negative impact of the tires on the ground. The research was conducted on the skid trail located in a lowland pine stand in Poland (Lower Silesian District). The 9.5-24, 400/55-22.5 and 11.2R24 tires were used for the experiment, and the following tractive parameters were analyzed: traction force, pulling force and rolling resistance. These parameters were determined during the experiment using special measure stand mounted on a 3-point linkage of the tractor. In addition to the traction properties, the impact of the wheel on the ground was determined – this evaluation included measurements of footprint areas and calculation of contact pressures. Based on the obtained results, it was shown that the increase of the vertical load and reduction of the inflation pressure of tires can cause an increase in net traction force of as much as 35% and 16%, respectively. The analysis of contact areas and pressures showed that the widest tire (400/55-22.5) had the least negative impact on the ground. The reducing of inflation pressure allowed to obtain higher traction force, higher contact area and smaller contact pressures.
Keywords
traction properties, soil damages, tractive efficiency, slip, rolling resistance
Hrčak ID:
311929
URI
Publication date:
12.1.2024.
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