Method of improving steering performance robustness utilizing mass non-uniformity in tire/wheel

Abstract

The invention relates to methods for improving vehicle steering performance and robustness of that performance through control of non-uniformities in the vehicle's tires, wheels and tire/wheel assemblies as a way to overcome the tendency of many vehicle types to undergo “steering performance loss.” While minimizing lateral force variations (e.g., couple imbalance), a controlled amount of radial and/or tangential force variation is induced in one or more tire/wheel assemblies by means of mass non-uniformity, dimensional non-uniformity, and/or stiffness non-uniformity. For mass non-uniformity, the preferred method includes imparting a controlled amount of excess mass to tires, especially in the tread region, by means, for example, of a heavy splice, an extra fabric piece, or a sector of a tire component having excess mass. The excess mass is meridionally symmetric so as to induce static but not couple imbalance, thereby imparting a “residual static imbalance” (RSI) to the tire. Beneficial tangential and/or radial force variations will result in the use of such a tire, even if the tire/wheel assembly is balanced by weights added to the wheel. A method of determining steering performance robustness for a vehicle/wheel/tire construction combination comprises conducting a series of steering performance tests of the vehicle, wherein at least one of the tire/wheel assemblies has its balance condition changed for each test through a progression of values from values favorable to steering performance (e.g., RSI), through neutral values (balanced), to values unfavorable to steering performance (e.g., couple imbalance).