Damper-isolators are disclosed that have a hub defining a bore for receiving a shaft, a pulley body mated to the hub to collectively define a magnet track that is concentric about the bore, a damper assembly operatively disposed between the hub and a belt engaging portion of the pulley body, a first magnet positioned within the magnet track and connected to the hub for rotation therewith, and a second magnet positioned within the magnet track and connected to the pulley body for rotation therewith. The first magnet and the second magnet are positioned with like polarities facing one another. A front end accessory drive system having one of the damper-isolators is also disclosed.

Systems and methods are disclosed for aircraft wheels and brakes systems for use in, for example, an aircraft. In this regard, a damper for an axle may comprise a cylindrical canister defining a cavity configured to be inserted into a bore of the axle, the cavity at least partially filled with a damping material. The damper may act as a particle damper or a tuned mass damper to mitigate harmonic vibration of the axle and therefore the wheel and brake system.

A torsional vibration absorber for a vehicle is provided. The torsional vibration absorber including a front pilot bearing adapted to couple with a vehicle shaft. A spring member is coupled to the front pilot bearing. An inertia ring having an inner surface is operably coupled to the spring member, wherein the front pilot bearing is centrally disposed along the length of the inertia ring. A rear pilot bearing is adapted to couple with the vehicle shaft, the rear pilot bearing having a portion adjacent the inner surface at one end of the inertia ring.

A vehicle shaft assembly having a damper integrally connected to the constant velocity joint end of the shaft assembly. The shaft assembly includes a constant velocity joint stub shaft having a constant velocity joint stub shaft tube seat that is integrally connected to a shaft. Integrally connected to the outer surface of a constant velocity joint stub shaft tube seat is a damper. The damper may include a damper rubber first ring rotatively connected to a second damper ring acting as a rotational mass. Additionally, the damper may include an innermost steel ring and a damper rubber first ring rotatively connected to a second damper ring acting as a rotational mass.

A variable frequency damper for a drive shaft of a vehicle may include a mass body made of a metallic material and having mass, a damper body disposed on the drive shaft and to which the mass body is coupled, a banding member which fixes the damper body to the drive shaft, and a rigidity tuning member which is disposed on the banding member to press the damper body, and changes rigidity of the damper body depending on a degree to which the damper body is pressed.

A wheel bearing apparatus has an outer member, an inner member and double row rolling elements contained between outer raceway surfaces and inner raceway surfaces, respectively, of the outer member and the inner member. A vibration damping mechanism is mounted on a portion of the outer member or the inner member except at portions engaging with mating components.

A wheel bearing apparatus has an outer member, an inner member and double row rolling elements contained between outer raceway surfaces and inner raceway surfaces, respectively, of the outer member and the inner member. A vibration damping mechanism is mounted on a portion of the outer member or the inner member except at portions engaging with mating components.

A vibration suppressor can include a mass element that can be mounted to a steering wheel of a vehicle, with the steering wheel defining a rotational axis about which the steering wheel is rotated when installed in the vehicle. The vibration suppressor can include a spring system that mounts the mass element to the steering wheel. The spring system can include multiple spring elements, each of which can have a compliance in the third dimension that is greater than a compliance in either a first or a second dimension (which are orthogonal to the third dimension) to permit the mass element to rotate back and forth about the rotational axis of the steering wheel to absorb rotational vibrations of the steering wheel.

Apparatus and method for mounting an object are provided. The apparatus includes a clamp configured to attach to a strut, and a bracket coupled to the clamp. The bracket includes a first arm having a first end disposed proximal to the clamp and a second end disposed distal to the clamp, and a second arm having a first end disposed proximal to the clamp and coupled to the object, and a second end coupled to the second end of the first arm. The second arm is positioned between the first arm and the object.

An assembly comprising: a powder metal outer part (22) having a radially inward facing cylindrical surface (54) with a plurality of facets (52) formed thereon that, in an alternating fashion, extend in an axial direction from an axial side of the powder metal outer part toward an opposite axial side of the powder metal outer part to a position between the opposing axial sides of the powder metal outer part; a powder metal inner part (20) having a radially outward facing cylindrical surface with a plurality of facets formed thereon that, in an alternating fashion, extend in an axial direction from an axial side of the powder metal inner part toward an opposite axial side of the powder metal inner part to a position between the opposing axial sides of the powder metal inner part; and an intermediate component (26) disposed between the cylindrical surfaces of the powder metal outer part and the powder metal inner part that connects the powder metal outer part and the powder metal inner part together.