Spicer Tire Pressure Control User Manual

Spicer

®

Tire Pressure Control

Questions and Answers About

Reduced Pressure Operation and

Spicer

®

Tire Pressure Control

Is the use of reduced tire

pressures approved by the tire

manufacturers?

The tire manufacturers have approved

operation at reduced pressures when lim-

iting the vehicle speeds. Their industry

group, The Tire and Rim Association

(T&RA), has published guidelines which

outline the tire sizes, loads and pressures

to apply this technology. While major

manufacturers have monitored or taken

part in numerous studies to determine the

safety and efficacy of reduced pressure

operation, most tire distributors are either

unaware of the work or are inexperienced

in applying the guidelines. Over time and

with increasing popularity of tire pressure

controlling systems, the awareness of the

tire industry in the field will grow.

Does low pressure work only in

sand? How about mud, clay,

snow and ice?

Reduced tire pressure enhances the

mobility of vehicles through two different

mechanisms, flotation and traction. In

both cases it is the longer footprint asso-

ciated with reduced pressure operation

that brings about the improvement. (A

steel belted radial tire does not increase

the width of the rubber in contact with the

ground as frequently thought).

To understand the concept of flotation as

it relates to land vehicles, one should

consider the similarity to a water borne

vessel. Just as a loaded ship displaces

water and pushes a discernible “bow

wave” in front of it, a truck on a soft

surface displaces the sand or soil and is

forced to run essentially uphill as it

moves a “wave” of sand in front of it. By

lengthening the footprint, the force exert-

ed by the vehicle on the ground surface,

measured in pounds per square inch

(psi), can be significantly reduced. This

reduction results in a lesser penetration of

the surface by the tire, similar to the

reduction in draft of a ship as its load is

diminished (or the reduced penetration in

snow of a person wearing snowshoes).

This improved flotation allows the vehicle

to move about the surface with less

disturbance to it.
A discussion of traction needs to consid-

er the difference between traction and

friction. Although friction is independent

of area, traction is very dependent on

area. A surface with limited friction will

demonstrate tire slippage with much less

effect on the surface; the tire is slipping

relative to the surface. Limited traction

will show wheel slippage, but with

resulting surface disturbance as the thrust

generated by the tire overcomes the

ability of the soil to resist it. Since a

longer footprint results in a more favor-

able distribution of shear forces in the

surface, the soil is less likely to be

displaced by the torque of the rotating tire

and increased traction results. Traction

increases (as measured by drawbar pull)

of 60% have been demonstrated solely

through the reduction of tire pressures on

a vehicle in a 6x4 configuration. When

reduced tire pressure is combined with all

wheel drive, improvements of over 100%

are readily achievable.
The combination of improved flotation

and traction results in the possibility of

tremendous improvements in overall

mobility. While these improvements are

most striking in coarse grained soils such

as sand, improvements are also measur-

able on other soils such as clay and

muskeg. In simplest terms, if operation of

a vehicle results in surface penetration by

the tires, reduced tire pressures and the

resulting improved flotation may help. If

the surface is hard but slippery, reduced

pressures should not have a significant

effect since friction is the dominant limiter

to mobility.
Uneven terrain should also be consid-

ered. Reduction in tire pressure will result

in a loss of ground clearance. If operating

in areas with deep ruts, high center