Bendix Commercial Vehicle Systems SmarTire Trailer-Link Op Manual User Manual

11

Thermal Equilibrium
As a vehicle moves, its tires naturally heat up due to friction from the road

and the flexing of its side-walls. Weight, vehicle speed and a tire’s starting

inflation pressure all have an impact on how much, and how quickly, heat

is generated.

As the tire generates heat, its pressure increases, causing a reduction in

side-wall flexing. Less side-wall flexing and road resistance, combined with

air rushing past the tire as the vehicle moves, effectively counteract the

conditions that cause the tire to heat up. As a result, the temperature increase

tapers off until the tire reaches a point of balance called “thermal equilibrium.”

Tire thermal equilibrium is the point where the heat being generated is

equal to the heat being dissipated. Tires are designed with the principles

of temperature and pressure in mind in order for them to achieve thermal

equilibrium. Once a properly inflated tire reaches thermal equilibrium, it will

operate at its peak; providing the best performance, handling, tire life and

fuel economy.

SmarTire Trailer-Link

™

TPMS Temperature Compensation

Since a tire’s contained air pressure naturally increases as a vehicle moves,

it can be difficult to tell if a hot tire is under-inflated. Without some form of

temperature compensation, a hot tire that is under-inflated might appear to

be fine because its contained air pressure is at, or above, its Cold Inflation

Pressure (CIP).

For example, a tire correctly inflated to a CIP of 105 PSI at 65°F will reach

thermal equilibrium when its temperature increases to 152°F and its pressure

increases to 125 PSI. A tire starting at 95 PSI at 65°F (10 PSI under inflated)

would have to reach 202°F for it to reach thermal equilibrium (125 PSI). The

tire will then be running 50°F hotter than it should be, causing more tire wear

and the potential for a catastrophic failure or tire fire.

When checked using a handheld gauge or a tire monitoring system that does

not measure operating temperature, this 10 PSI under-inflated tire can appear

to be normal. When equipped with tire sensors that mount inside the tire,

SmarTire Trailer-Link TPMS measures both tire pressure and temperature

in order to provide “Temperature Compensated” pressure deviation values

and alerts. By measuring the operating temperature of a tire and comparing

it to the CIP value programmed into the system, the SmarTire Trailer-Link

system will know what a tire’s pressure is supposed to be in relation to its

operating temperature.

The system is able to warn the driver of an under-inflated tire even if that

tire’s actual contained air pressure is at — or above — its CIP.