A disc brake includes: an inner pad and an outer pad; a pressing device configured to press the inner pad and the outer pad against a rotor, the pressing device including a first presser member and a second presser member that are movable parallel to a rotational axis of the rotor, and a frame that is a frame-shaped rigid body and is movable in the direction parallel to the rotational axis; and a housing mounted on a non-rotating body, the housing holding the pressing device, the housing including a pad pin that hold the inner pad and the outer pad so as to be movable in the direction parallel to the rotational axis, the pad pin being held by the housing at both ends of the pad pin in the direction parallel to the rotational axis.

A rotational coupling device includes a rotor configured for rotation about a rotational axis, a brake plate disposed on a first axial side of the rotor, an armature disposed on a second axial side of the rotor opposite the brake plate, and an electromagnet disposed on one axial side of the armature opposite the rotor and the brake plate. A spacer is disposed axially between the brake plate and the electromagnet and radially outwardly of the rotor and the armature. A seal is supported on a radially inner surface of the spacer radially outward of the armature and seals the interface between armature and electromagnet.

A rotational coupling device includes a rotor configured for rotation about a rotational axis, a brake plate disposed on a first axial side of the rotor, an armature disposed on a second axial side of the rotor opposite the brake plate, and an electromagnet disposed on one axial side of the armature opposite the rotor and the brake plate. A spacer is disposed axially between the brake plate and the electromagnet and radially outwardly of the rotor and the armature. A seal is supported on a radially inner surface of the spacer radially outward of the armature and seals the interface between armature and electromagnet.

A disc brake and an adjuster system for a disc brake. The adjuster system may include a piston, a chamber, and a wear adjustment mechanism. The wear adjustment mechanism may be located within the chamber. The chamber may contain lubricant for lubrication of at least part of the wear adjustment mechanism.

A disc brake and an adjuster system for a disc brake. The adjuster system may include a piston, a manual rewind apparatus, and an overload device. The overload device may be arranged between the manual rewind device and the piston and may be configured to interrupt driving engagement between the manual rewind apparatus and the piston when torque is applied above a predetermined value.

Method for determining steering deadband and eliminating starting drag in a vehicle, having at least one steered wheel mechanically connected to an actuator, includes, from a first initial position, wherein the actuator is in a middle position and is biased toward a second direction, the actuator is moved toward a first direction, the first direction being opposite to the second direction, until a movement of the steered wheel is detected in a first deadband detection position of the actuator. The actual position of the actuator in the first deadband detection position is stored as a first deadband value ?.sub.DB1. After reaching the first deadband detection position, the actuator is moved further in the first direction by a predetermined ?.sub.ESD1 first starting drag elimination angle to cause a predetermined movement of the at least one steering wheel and further mechanical parts connected thereto arriving to a first starting drag elimination position.

A tone ring attachment for a disc brake rotor. The disc brake rotor has a disc portion that includes a plurality of circumferentially-spaced lugs. Each one of the lugs has a groove. A discrete tone ring body has a plurality of bosses. Each one of the bosses is receivable in a respective one of the grooves in the lugs. A dart projection extends from at least one of the bosses. The dart projection engages a respective one of the lugs to inhibit relative axial movement and relative rotational movement in at least one direction between the tone ring and the disc brake rotor. A tab is formed on at least one of the bosses. The tab is engageable with a portion of the lug to inhibit relative rotational movement in a second direction opposite the first direction between the tone ring and disc brake rotor.

A method for forming an oxidation protection system on a carbon-carbon composite structure comprises applying a boron slurry to the carbon-carbon composite structure, wherein the boron slurry comprises a boron composition, a first glass compound, a first glass former, a first glass modifier, and a first carrier fluid, the boron composition including a first metal boride, applying a silicon slurry to the carbon-carbon composite structure, wherein the silicon slurry comprises a silicon compound, a glass compound, a second glass former, a second glass modifier, an oxygen inhibitor, and a second carrier fluid; and heating the carbon-carbon composite structure.

A method of manufacturing a corrosion- and wear-resistant component and a corrosion- and wear-resistant component. The method includes preparing a feedstock powder that includes a stainless steel powder and a ceramic powder, sintering the feedstock powder at a first temperature to form a low porosity free-standing wear body, and bonding the wear body to an aluminum or aluminum alloy substrate at a second temperature lower than the first temperature.

A drum brake dust shield is provided for a vehicle braking system having a drum brake assembly. The dust shield comprises a first semicircular portion lying in a generally flat plane, and a second semicircular portion lying in the same plane as the first portion to form an annular disc. A dividing slit is defined between the first and second portions. The dust shield further comprises a hinge portion interconnecting the first and second portions. The hinge portion has a stress-relief slit that transversely intersects the dividing slit such that mechanical stresses between the first and second portions are distributed and dispersed over a relatively larger surface area when the first and second portions are spread apart along the dividing slit in opposite directions relative to each other to install the dust shield on the drum brake assembly.