Methods and systems for improving tire uniformity through identification of uniformity attributes, such as process harmonics are provided. More particularly, uniformity measurements acquired according to a non-uniform sampling pattern can be obtained and analyzed to estimate one or more process harmonics (e.g. the magnitude of the process harmonic). The non-uniform sampling pattern can specify the acquisition of uniformity measurements in a varying or irregular manner about one or more revolutions of the tire. For instance, the non-uniform sampling pattern can specify a random spacing between data points. The uniformity attributes estimated from the uniformity measurements can be used to modify the manufacture of tires to improve tire uniformity.

Systems and methods for correcting uniformity of a cured tire using ablation of material along a plurality of tracks along the bead portion of the tire are provided. An ablation pattern can be determined to correct for a uniformity parameter for multiple tracks along a bead portion of a tire. The ablation pattern for each track can be analyzed to determined direct address commands for implementing the ablation pattern using an ablation device. The direct address commands can be determined according to an adjustment process to improve cycle time for the ablation of a tire. The adjustment process can be operable to more closely align azimuthal positions of ablation segments specified by direct address commands for different tracks along the bead of the tire.

Methods and systems for improving the uniformity of a tire by determining one or more high speed uniformity parameters of the tire are provided. The high speed uniformity parameters can be determined by continuously acquiring uniformity data while ramping the tire to and from high speeds. For instance, measured uniformity data can be continuously collected for the tire as the tire is increased to high rotational speeds and decreased from high rotational speeds. The measured uniformity data can then be analyzed to determine one or more high speed uniformity parameters for the tire. For instance, the measured uniformity data can be corrected for non-high speed uniformity contributions to the uniformity measurements, such as contributions resulting from non-uniformity of a road wheel use to load the tire during uniformity testing, contributions resulting from mass unbalance of the tire, and contributions from low speed uniformity parameters of the tire.

A system and method for reducing the magnitude of one or more harmonica of one or more uniformity parameters in a cured tire involves selective removal of tire material at one or more track/area locations along first and second bead profiles. Selective removal may occur via ablation at the bead seat, low flange and/or high flange zones to correct for a selected number of harmonic of such parameters as radial, lateral and tangential force variation. Ablation pattern are calculated and implemented on first and second tire beads to achieve desired levels of force reduction at selected angular locations (within the expanse from 0-360 degrees along each tire bead). Ablation patterns may be calculated for implementation at fixed or varied tire rotational speeds and/or fixed or varied levels of laser power.

A tire comprises an inner surface defining and facing an inner hollow space, an outer surface pointing away from the inner hollow space. A method of processing the tire comprises identifying the position of a first feature on the outer surface and cleaning a surface portion of the inner surface of the tire, wherein the surface portion has a first predetermined position relative to the position of the first feature on the outer surface. A separate element is attached with its attachment surface to the surface portion, wherein a ratio of a size of the surface portion over a corresponding size of the attachment surface is smaller than 10.

A system for controlling a parameter relative to the quality of a tyre being processed includes at least one system for detecting a parameter relative to one or more tyres being processed. A control unit is programmed for comparing a succession of values of the parameter by comparing each value with at least one discard threshold and preferably with at least one warning threshold. The discard threshold divides a discard interval from an acceptable interval. The warning threshold belongs to the acceptable interval and defines one or more warning intervals. The control unit is also programmed for controlling the trend of the succession of values with respect to the discard threshold. A method for controlling quality of production of tyres.

An apparatus for controlling tires includes a support plane configured for receiving a tire with axial middle line plane parallel to the support plane, defining an abutted lateral portion and a free lateral portion arranged at a specific height with respect to the support plane. A thrust element is configured for applying, to a measurement surface of the free lateral portion, a force directed toward the support plane. A positioning actuator is operatively associated with the thrust element and configured for moving the thrust element with at least one motion component perpendicular to a rotation axis of the tire. The apparatus also includes devices for modifying the angular position of the measurement surface. A control unit is programmed for detecting a first value of output data at each position of the measurement surface as a function of a first value of input data maintained substantially constant along at least one complete rotation of the measurement surface around the rotation axis and for detecting a second value of the output data at each position of the measurement surface. The second value of the output data corresponds with a second value of the input data maintained substantially constant along at least one complete rotation of the measurement surface. The control unit includes a module programmed for calculating, at each position of the measurement surface, a difference between the second value of the output data and the first value of the output data.