A friction device has a carrier element and friction lining segments arranged thereon, wherein the friction lining segments each include one sintered friction lining arranged on a friction lining carrier, the friction lining carrier being connected to the carrier element by fastening elements, and several fastening elements being arranged per friction lining segment, wherein one fastening element is located on a first circular path having a first diameter, and one fastening element is located on a second circular path having a second diameter, and wherein the ratio of the first diameter of the first circular path to the second diameter of the second circular path is selected from a range from 1.2 to 1.5.

A process for assembling vehicle brake shoes, includes providing a painted vehicle brake shoe with a table constructed and arranged for receiving a brake friction liner; applying a layer of self-adhesive material to the brake shoe table; subjecting the brake shoe and layer of material to heat sufficient in intensity and duration to thermally bond the self-adhesive material to the brake shoe table; removing a release layer from an external surface of the layer of self-adhesive material; applying a brake lining to the combined brake shoe and self-adhesive material; and fastening the brake lining to the brake shoe.

A friction device for a vehicle having a flanged wheel (with a wheel flange and wheel tread) includes a backing plate and a friction structure. The backing plate may interface with a brake actuator of the vehicle. The friction structure is attached to the backing plate and comprises a friction material; the friction structure has a longitudinal flange side, a longitudinal rim side, and two opposing ends, and defines a brake surface for engaging the flanged wheel for braking. The friction structure includes an extended volume portion of the friction material on the longitudinal flange side, which defines a flange contact region of the brake surface. The flange contact region may at least partially engage the flange and to align the friction device with the wheel tread, e.g., the flange contact region may be complementary in shape to at least part of the flange.

A method and a system of a friction device for a wheel may include a backing plate and a friction material disposed on the backing plate to form a brake surface to engage a surface of the wheel. The friction material extends between a first end and a second end along a central longitudinal axis, and between a rim side and a flange side. A void is disposed within the friction material and extends from the brake surface a distance into the friction material. The void forms an opening of the brake surface of the friction material.

A brake drum for a drum brake, in particular of a motor vehicle, includes a cylindrical jacket and a support pot which axially adjoins the jacket and which has a hub ring portion to be secured to a wheel hub. The monolithic brake drum is formed at least in part of a fiber-reinforced plastic.

A drum brake includes a brake drum with an attaching region for arranging the brake drum on a vehicle part, such as a wheel hub, and a shell region with a first contact face, and a friction lining with a second contact face which faces toward the shell region, the first and second contact face being curved along or in a radial plane.

A friction device has a carrier element and friction lining segments arranged thereon, wherein the friction lining segments each include one sintered friction lining arranged on a friction lining carrier, the friction lining carrier being connected to the carrier element by fastening elements, and several fastening elements being arranged per friction lining segment, wherein one fastening element is located on a first circular path having a first diameter, and one fastening element is located on a second circular path having a second diameter, and wherein the ratio of the first diameter of the first circular path to the second diameter of the second circular path is selected from a range from 1.2 to 1.5.

A brake shoe, in particular of a drum brake for utility vehicles, comprising a lining carrier with an arrangement face for arranging a brake lining, a fastening area which is configured to be placed in engagement with a fastening means for fastening the brake lining, wherein the fastening area is embodied so as to be movable in a resettable fashion with respect to the arrangement face.

A vehicle spring type brake shoe key for connecting a brake shoe to a brake head, wherein the brake shoe key includes a body or shank and a head integrally formed with the body or shank, and wherein the key has a reduced mass head, an alternative configuration head, a surface treatment, or two or more of these modifications that reduces the likelihood that the head will weaken and/or break off the body of the brake shoe key,

The invention relates to a method for applying sand to the inner radius of drum brake linings comprising the following steps: a) rolling a UV-curing adhesive onto the inner radius of a drum brake lining, b) applying a frictional grain, such as zircon sand, to the adhesive layer, c) removing the frictional grain not retained by the adhesive from the lining surface, and d) curing the coating by means of UV radiation.