Force Calculation
Vertical Force
Where is the vertical stiffness of the tire. The lateral deflection is ignored in the calculation.
Where is the tire penetration velocity.
The vertical force can only be positive: in the case of a lift off condition of the tire from the ground, the resulting negative reaction force is set to 0.
If a [DEFLECTION_LOAD_CURVE] block is present in tire property file then the data inside the block is used to calculate the vertical force. In this case the VERTICAL_STIFFNESS value is ignored. The data in DEFLECTION_LOAD_CURVE should be monotonically increasing. An example of such table is given below:
Friction Coefficient
The friction coefficient is calculated by interpolating the Umax and Umin value using Comprehensive slip.If there is a [MU_SLIP] present in the tire property file than the friction coefficient is calculated by interpolating the data in the table. The data in [MU_SLIP] curve should be monotonically increasing. An example of such table is shown below:
Longitudinal Force
The calculation of the longitudinal force (Fx) depends on the longitudinal slip condition of the tire. Typically, there are two distinct slip states: an elastic deformation state (where the longitudinal slip is less that a critical slip value) and a pure sliding state (where the longitudinal slip exceeds the critical slip value).The critical longitudinal slip is calculated below:
In case of pure elastic deformation
In case of pure sliding
Where:
Lateral Force
Similar to the critical slip for longitudinal force, a critical lateral slip factor is calculated. It determines the boundary between pure elastic deformation conditions and pure sliding condition of the tire.
In case of elastic deformation state
and are the lateral forces due to later slip and camber respectively.
is the camber angle, when
And if >
Where:
In case of sliding
Overturning Moment
An overturning moment is caused by the shift of the contact point (at which the vertical force is applied) in the lateral direction.Rolling Resistance Moment
In the FIALA tire model the rolling resistance moment is purely a function of the normal force Fz:Where omega is angular velocity of tire about spin axis.
Aligning Torque
The same critical lateral slip used in the Fy calculation is also used in determining the condition of the tire.In case of elastic deformation state
In case of sliding