A belt pulley decoupler (1) for an auxiliary assembly drive (2) includes an input part (3) comprising a hub (4); and an output part (5) comprising a belt pulley (6). The output part (5) and the input part (3) can rotate about a common axis of rotation (7). The belt pulley decoupler further includes a first flange (8) having a first toothing (30), with the first flange (8) being connected to the hub (4) by means of a toothing (9); and a second flange (31) having a second toothing (32), with the second toothing (32) being connected to a third toothing (33) formed by the toothing (9) on the hub (4).

A hub built-in type constant velocity joint may include a plurality of wheel guide coupling portions to which wheel guides are configured to be coupled, and a hub housing which is formed between the wheel guide coupling portions and in which a discharge portion is formed to be stepped with each of the wheel guide coupling portions and configured to discharge foreign materials to the outside.

An actuator includes a first ball-ramp plate, a second ball-ramp plate, and a plurality of balls. The first ball-ramp plate is formed of compressed powdered metal with ramps having a higher density than at least part of a remainder of the ball-ramp component. A method of manufacturing the actuator includes compacting a metal powder to form a blank of the first ball-ramp plate including an annular body disposed about an axis and a plurality of ramps fixedly coupled to the annular body and spaced circumferentially about the axis, and locally densifying the ramps of the blank by applying force to a ramped surface of each ramp.

A method for producing friction discs for a, in particular radial, dual clutch, includes the following steps: providing a first disc ring with a first inner diameter, providing a second disc ring with a second outer diameter, wherein the second outer diameter is smaller than the first inner diameter, and processing the first disc ring and the second disc ring in a tool for producing the friction discs. The second disc ring is arranged within the first disc ring, and the second and the first disc rings are processed in the tool together.

The invention relates to a backing plate (1) for a disc brake of a motor vehicle, comprising a front side (2) for holding a friction lining. The backing plate (1) has a back side (3), on which a holding device (4) is arranged. The holding device is designed to hold a spring element (5), which consists of a spring base (6) and two spring legs (7, 8) arranged at the ends of the spring base (6). The holding device (4) is integrally bonded to the backing plate (1). The invention further relates to a method for producing a backing plate (1).

A caliper body of a caliper for a disc brake may have two opposite elongated portions, each adapted to face one of the two opposite braking surfaces of the disc of disc brake. The two opposite elongated portions are connected to each other by at least one caliper bridge. At least one of the two opposite elongated portions may have seat walls which delimit at least one seat, adapted to house at least one portion of a thrusting element. The thrusting element may be adapted to determine a thrusting action against at least one brake pad associable with the caliper body to press the at least one brake pad against one of the two opposite braking surfaces. The seat walls may have at least one seat bottom wall, in which the axial thickness of the seat bottom wall is less than 5 mm.

A magnetorheological braking device has two braking components that are continuously rotatable relative to one another. A first braking component extends in the axial direction and the second braking component includes a hollow casing extending around the first braking component. A peripheral gap is filled with a magnetorheological medium. The first braking component has an electric coil and a magnetically conductive core which extends in the axial direction. A star contour with magnetic field concentrators on the core and/or on the shell part project into the gap, which results in a peripheral gap region with a variable gap height. The electric coil is wound around the core such that a magnetic field runs through the core and the magnetic field concentrators and through the gap into a wall of the casing. A star contour is formed by a stack of star plates.

A torque limiter includes a first ring adapted to be fixed to a flywheel and being driven to rotate about a rotation axis, a second ring a certain distance from the first ring, and a compression ring between the first ring and the second ring. A friction disc is slidably sandwiched between the second ring and pressure ring, and a spring washer is arranged between the first ring and pressure ring, the pressure ring receiving a pressing force from the spring washer and pressing the friction disc against the second ring. The first and second ring are integrally formed, the first ring provided with first teeth, the spring washer provided with support teeth, and each support tooth is supported by one first tooth. A transmission system includes the above-described torque limiter.

A one piece drum brake spider construction eliminates welds and distortion, at least relative to a typically fabricated spider, and should improve brake performance. The spider includes a main body plate having opposed flat sides, an outer perimeter, and an inner perimeter configured to receive an axle tube. Vibration control structure is preferably formed on at least one of the opposed flat sides of the main body plate, and the brake drum spider additionally includes weight minimizing features. At least the main body plate may be produced by any of a casting technique, a stamping technique, a machining technique, and an additive manufacturing technique. The invention also concerns a process of producing such a brake drum spider.

A method of manufacturing an outside joint member, the outside joint member including a cup portion in a bottomed tubular shape and a shaft portion that is a shaft-like portion extending from a bottom portion of the cup portion and that has a spline shaft having an outer peripheral surface on which spline teeth are formed, includes forging a forming material to form a shape of the cup portion and a shape of the spline shaft on the shaft portion simultaneously using a forging die.