A hubcap for an aircraft wheel comprises a generally cup-like body for covering, in use, a free end of an axle. The cup-like body has an end wall, a side wall and an open end opposite the end wall. The hubcap further comprises one or more elongate formations protruding from an outer surface of the side wall and extending from close to the end wall towards the open end of the body, wherein the height of the or each elongate formation varies or tapers continuously or discontinuously from a maximum to a minimum along at least a portion of its length in a direction towards or away from the closed end of the cup-like body.

An insert for a vehicle wheel having a plurality of spokes which define, in part, an outwardly-facing wheel surface, and further define between adjacent ones of the spokes, a cavity for receiving the insert, in use, the insert comprising: an outer profile of complementary shape to the cavity and arranged to fit securely within the cavity, in use; and a flow redirecting surface which is aerodynamically shaped so as to reduce drag on an adjacent spoke of the wheel, in use.

The present disclosure is directed to a wheel cover that is coupled to a wheel of a vehicle utilizing a mounting assembly that has a bearing block. A retainer assembly in combination with the bearing block of the mounting assembly allows the wheel cover to be coupled to the wheel in a manner such that the wheel cover does not rotate with the forward and backward rotation of the wheel when the vehicle is being driven. The wheel cover covers the wheel and partially covers a gap or space between a tire of the wheel and a fender of the vehicle, which increases the aerodynamic performance of the vehicle. The retainer assembly provides at least one degree of freedom such that the wheel cover may move with the wheel when steering the vehicle in a leftward direction and a rightward direction.

The present disclosure is directed to a wheel cover that is coupled to a wheel of a vehicle utilizing a mounting assembly that has a bearing block. A retainer assembly in combination with the bearing block of the mounting assembly allows the wheel cover to be coupled to the wheel in a manner such that the wheel cover does not rotate with the forward and backward rotation of the wheel when the vehicle is being driven. The wheel cover covers the wheel and partially covers a gap or space between a tire of the wheel and a fender of the vehicle, which increases the aerodynamic performance of the vehicle. The retainer assembly provides at least one degree of freedom such that the wheel cover may move with the wheel when steering the vehicle in a leftward direction and a rightward direction.

Embodiments include an aerodynamic wheel cover system having an air delivery system to connect vehicle tires to accessible locations that are accessible when a wheel cover is mounted. An embodiment includes a mounting bracket for mounting to a hub of a vehicle, a base assembly mounted to the mounting bracket, a wheel cover adapted to mount to the base assembly, and a plurality of air fittings. Each of the plurality of air fittings may extend from an inboard side of the wheel cover and through the wheel cover to a respective accessible location that is accessible when the wheel cover is mounted to the base assembly. Each of the air fittings may include an accessible portion accessible at the respective accessible location.