AgriEngineering, Vol. 7, Pages 289: Mass Impact of a Mounted Sprayer on the Operational Balance of an Agricultural Tractor

AgriEngineering doi: 10.3390/agriengineering7090289

Authors:
Bruno Passador Lombardi
Alex Portelinha
Igor Cristian de Oliveira Vieira
Breno Santos-Silva
Samir Paulo Jasper
Rouverson Pereira da Silva
Tiago Rodrigo Francetto

The operational stability of agricultural tractors is directly influenced by the mass distribution between axles, particularly when using mounted implements with variable loads. This study aimed to evaluate how different masses of a mounted sprayer (550 kg, 850 kg, and 1150 kg) and tire inflation pressures (151.7–193.1 kPa) affect the load distribution between axles, tire contact area, center of gravity (CG) displacement, and tractor lead ratio. A 3 × 4 factorial design was adopted with a statistical analysis of key parameters across 12 experimental combinations. The results demonstrated that increasing implement mass significantly shifted the load toward the rear axle, reducing the front axle load by up to 46% and displacing the CG rearward by more than 11 cm, thereby compromising stability. Tire pressure, as well as the interaction between mass and pressure, also exhibited statistically significant influence on load distribution and CG positioning while modulating the tire contact area. The lead ratio increased linearly with mass, exceeding the recommended 5% threshold when the sprayer was at full capacity. These findings indicate that while the implement mass exerts a dominant effect, tire pressure management represents a statistically relevant factor for stability, requiring integrated management that considers the interaction between ballasting and tire inflation to mitigate operational risks.

Source link

Bruno Passador Lombardi www.mdpi.com