While certain factors such as the climate or the weight of your tractor are beyond your control, soil preservation on the other hand is something you can more or less manage, if you decide to work at low pressure. This is a good way of improving your yields.
However, to do this you will need to take into account certain limits which are linked to the characteristics of your tyres.
As the main role of inflation pressure is to compensate for the weight of your machine, you cannot decrease the pressure just for the sake of soil preservation without taking account of all the other factors: such as load, your tyres’ capacity limits, their technology, working speed, etc.
Considerably reducing the pressure in the tyres increases their soil footprint and limits soil compaction in your fields. However, each agricultural tyre has its own technical characteristics which must be taken into account at all costs when working at low pressure. Depending on your tyre model, your load and the type of soil on which you are driving, you must be careful not to reduce pressure too much to avoid irreversible consequences which may cost you dearly:
Driving at low pressure on the road with tyres that were not designed for this purpose will cause the tyres to wear rapidly. When the pressure is too low, the rubber in the tyre heats up and becomes softer, causing rapid wear to the tread which is in contact with the highly abrasive asphalt. The tyre’s lifespan will be reduced by 25% or more if you drive on the road at high speed on a regular basis.
On the road, an underinflated tyre’s rolling resistance is much greater than normal, causing excess fuel consumption, which increases even more if you drive long distances.
An underinflated tyre’s stress resistance is very low. On the road, the load transfer caused by your trailer going round a bend or braking will crush your tyres, especially if you are driving with a heavy load and at speed. The load transfer will have the same effect in the fields if you are working on sloping land.
A frequently underinflated tyre incurs too much flexion in the sidewalls, the reinforcement strip and casing ply will wear progressively on the edge of the rim until this results in the tyre breaking just above the bead, making your tyre unfit for use.
By opting for pressure below the recommended level, your tyre may suffer internal damage which has consequences even after the pressure has been properly adjusted. A mere branch, root or stone can cause a sudden puncture, immobilising your machine with the resulting heavy financial consequences.
Most manufacturers’ tyre pressure charts have a first air pressure level that is extremely low for many tyre models. When you want to preserve your soil, the natural reflex is to choose this type of minimum pressure for light work and continue over the entire piece of land.
Be careful, this type of chart gives you all the possible pressure settings with extreme minimum and maximum levels possible for a given tyre model, but does not advise you to work continuously at the tyre’s lowest or highest limit.
As a comparative example, a small car destined for city driving is attributed a top speed of 185km/hour by the manufacturer. It’s obvious if you drive for a whole day at this constant speed that you will damage the engine. The same applies to your tyres.
You often see recommended pressure charts that start at 0.6 bar, for a given load and speed, which is the absolute minimum for standard tyres. To avoid compacting your soil while preserving your tyres, it is better to work at a pressure of just above 1 bar or 1.2 bar and not at the very limit indicated in the manufacturer’s table (0.6 bar). It is effectively possible to reduce pressure to 0.6 bar to work on a part of your land with a more difficult soil, such as loose soil or very wet ground, but only for short distances, at very low speed and working in a straight line on flat surfaces.
The purpose of working at low pressure is to preserve the soil, but it cannot be done without respecting several technical parameters, such as load, type of soil, steep slopes, working speed and tyre technology.
Pressure has a direct impact on soil compaction, but its principal role is to compensate for the load represented by your tractor and its implements. The pressure cannot be the same when you are driving with or without a load. When you transport heavy loads, the casing, sidewalls and tread of the tyre are placed under great strain resulting in considerable deformation which can damage the tyre if the inflation pressure is not high enough.
Pressure settings are important when you work on sloping land, because the load transfer linked to the gradient of the land can result in the load capacity of a tyre or axle being exceeded by far.
When the tractor drives up the slope, there is no weight at all on the front axle while the rear axle bears the load transfer. Inversely, the full weight of the combination vehicle will push down on the front axle when the tractor drives down the slope.
If you work at low pressure, this load transfer will result in your tyres being crushed because there is not enough pressure in them to resist. If your land is not flat, to avoid having an accident, you must take all the precautions necessary and adjust your pressure settings based on load calculations taking account of the slope of the land. Adapting pressure must take priority over soil care in order to preserve your tyres.
Pressure and speed are directly linked. If you work at low pressure with standard tyres, this is incompatible with high speed.
At low pressure, the tyre flattens out massively on the ground, and it recovers its original form when it lifts off the ground with each rotation. If the speed is too high, it doesn’t have time to recover its initial form in the space of one wheel rotation and will deform further. The accumulation of these deformations increases the temperature within the tyre, weakens the rubber and the internal structure and can result in the tyre bursting.
There are agricultural tyre models which have been designed to work at very low pressure, such as VF (Very high Flexion) technology tyres. The construction of their casing is highly specific, it has been reinforced and its multi-layer structure gives it a greater flexion capacity. Its sidewalls are more supple but at the same time more solid than those of standard tyres.
In the fields, these high-tech tyres can drive at very low pressure without any risk of damage. The casing of a VF tyre can, for example, manage a pressure of 0.6 bar in normal working conditions whereas a standard tyre should stay above 1 bar. Furthermore, the VF tyre has been developed to go from one type of soil to another without changing the pressure, so that you save precious time during your working day.
The more robust structure of VF tyres give them a greater load capacity compared to standard agricultural tyres. You therefore have the choice with this technology of increasing the load without increasing inflation pressure or decreasing pressure for the same load as a standard tyre.
Here is an example of comparison between standard and VF tyres used in the fields at a speed of 10 km/h:
Tyre dimensions: 650/85 R38 for a load of 7,000 kg:
Tyre dimensions: 600/65 R28 for a load of 4,000 kg:
The Bridgestone-agriculture.eu blog is written and administered by tractor tyre experts who are available to provide you with the advice that you need about your farming tyres. They will help you to maximise your productivity with information on all things relating to tyres: inexpensive tractor tyres - technical data for farming tyres - advice on farming tyre pressure - solution to avoid soil compaction - sprayer tyre pressure - Why and how to ballast your tractor tyres - when to use twin wheels - the mechanical causes of abnormal wear - cheap agricultural tyres - etc.
To take it a step further and increase the profitability of your farm, the tractor tyre experts has prepared a free, highly detailed, ebook which explains the essential role of farming tyres on your productivity.
Most people who read this article have also read some of the following articles: