What is a characteristic of steam or reverted rubber aquaplaning?

The phenomenon of steam or reverted rubber aquaplaning is primarily linked to tire surface temperatures exceeding certain limits. When the temperature of the tire rises significantly, the rubber can begin to soften, which compromises the grip between the tire and the runway surface. This situation can lead to a specific type of aquaplaning where the tire creates a layer of steam, resulting in a loss of traction that is particularly dangerous during landing or takeoff phases.

This type of aquaplaning is distinct from other forms as it specifically relates to the thermal properties of the tire and the resultant rubber behavior under extreme conditions. Understanding the relationship between tire temperature and aquaplaning helps pilots appreciate the risks associated with specific operational scenarios, particularly when aircraft are heavily loaded or when tracks are very hot.

The incorrect options touch on different aspects of tire and runway interactions but do not accurately define steam or reverted rubber aquaplaning. For example, while tread patterns do influence general grip, they are not a defining characteristic of reverted rubber aquaplaning itself. Similarly, such aquaplaning does not occur mainly in dry conditions, but in fact, the risk increases in certain wet or humid conditions where high temperatures are combined with moisture. Lastly, the phenomenon is not