A bicycle component comprises a base member and a first alumite layer. The base member is made of an aluminum alloy. The first alumite layer is provided on the base member. The first alumite layer has a thickness that is equal to or larger than 1.0 μm.

A wheel bearing assembly includes at least one hub having an axial outboard end, a first bearing installed in the hub and having an outer ring and an inner ring, and at least one seal element that seals against a radially inner surface of the first bearing inner ring in a liquid-tight manner. The first bearing is the outboard-most bearing of the wheel bearing assembly.

An axle assembly for a vehicle including a differential assembly, a first axle tube extending outwardly from a first side of the differential assembly and defining an axle bore, a first axle shaft rotatably received in the first axle tube, and defining an annular groove extending radially inwardly from its outer surface, a retainer nut axially fixed to a distal end of the first axle tube, the retainer nut having an annular flange extending inwardly into the axle bore and defining an annular outer raceway, a snap ring received in the annular groove, and an axial thrust component disposed in the axle bore of the first axle tube between the snap ring and the outer raceway of the retainer nut.

A bicycle disc wheel or spoked wheel (10) is disclosed, comprising a hub (12), a rim (14) and at least one disc or spoke-type structural element (60) integral with the hub (12) and the rim (14), wherein said at least one structural element (60) is pretensioned. A process for manufacturing thereof comprises the sequential steps of providing a hub (12) and a rim (14), applying a compression on the rim (14) towards the hub (12) elastically deforming it, rendering at least one disc or spoke-type structural element (60) integral with the hub (12) and the rim (14), and removing the compression onto the rim (14) applied in step a).

A method of mounting a non-pneumatic tire onto a hub to provide a non-pneumatic wheel is provided. Certain portions of spokes of the non-pneumatic tire are connected to grooves along the hub. The tire is repeatedly rotated and deformed to allow the remaining portions of the spokes to be connected with the grooves in order to fully mount the tire onto the hub.

A road wheel for a vehicle includes a face portion and a rim portion. The face portion is formed from a metallic alloy and defines a central portion plurality of spokes extending between the central portion and a proximal bead element. The rim portion is formed from a composite material and defines an annular wall circumscribing a wheel axis extending to a distal bead element from said face portion. The proximal bead element is defined by the metallic alloy and the distal bead element is defined by the composite. The face portion and the rim portion are interconnected in interlocking engagement.

Implementations disclosed and claimed herein provide systems and methods for identifying and mitigating lug nut loosening. In one implementation, an indicator body of an indicator has a top surface connecting a front surface and a back surface. A first side of the indicator body is disposed opposite a second side of the indicator body. A receiver extends from the top surface into an interior of the indicator body. The receiver is configured to form a translational relationship of the lug nut with the indicator through a mating fit of the lug nut within the receiver. The translational relationship generates a corresponding rotation of the indicator body in response to a rotation of the lug nut. The corresponding rotation of the indicator body provides an indication that the lug nut is loose.

An automobile wheel having a multilayer rim includes a wheel disc and a rim that is composed of at least two layers of metal rings by nesting, and a gap is preset between two adjacent metal rings; an outer side of one end of the wheel disc includes axial rim mounting grooves, and one end of the rim is inserted into the rim mounting grooves to fix the rim to the wheel disc.

The disclosure is directed to a wheel having a rim that is at least partially made from several layers of fiber-reinforced plastic, and a wheel center having multiple spokes extending from a wheel hub, which constitutes an axis of rotation, to the rim in a radial direction. According to the disclosure the rim comprises a rim well extending in transversal direction between an inboard flange and an outboard flange suitable to receive a tire to be mounted thereon. The wheel includes a circumferential collar that extends from the outboard flange radially inwards towards the axis of rotation and that has an outboard collar face that constitutes an aerodynamic surface.

A manufacturing method of a wheel bearing device, the wheel bearing device including an outer ring member, an inner shaft member that includes a shaft portion that has an inside raceway and a flange portion, a plurality of rolling elements, a seal provided at an end portion of the outer ring member on the first axial side and including an axial lip, and a lip contact surface provided on the side of the inner shaft member and contacted by the axial lip, includes: processing the outside raceway with a distance in an axial direction from a first reference position being managed, a first reference position being set on the outer ring member; and providing the seal at a predetermined position, in the axial direction, of the outer ring member with respect to the first reference position.