The invention relates to an environment-friendly friction material, which consists of the following components in parts by weight: 8-15 parts of a binding material, 3-8 parts of an organic fiber, 3-8 parts of an inorganic fiber, 3-8 parts of an anti-friction material, 15-25 parts of granite powder, 35-40 parts of marble powder, 6-10 parts of a modified organic filling material, 5-10 parts of an acidity or alkalinity regulating material, and 0.5-4.5 parts of a non-copper metal material, wherein the modified organic filling material consists of the following components in parts by weight: 25-50 parts of tyre powder, 15-25 parts of a shoe sole waste, 10-15 parts of a sepiolite fiber, 2-3 parts of a silane coupling agent, 2-5 parts of a cashew nut shell liquid, and 0.5-2 parts of an activator, with the shoe sole waste including 15-30% of POE and 5-15% of EPDM. The invention is reasonable in compatibility, and has excellent properties such as reduced noise, heat resistance and little damage to mating plates while ensuring a moderate and stable friction coefficient, thereby changing waste materials into objects of value and achieving energy conservation and environmental protection effects.

A friction assembly has a support plate, at least one brake pad and at least one reinforcing foil of the plate. The brake pad and the support plate are co-moulded from at least one heat-resistant resin. The reinforcing foil is fixed to the support plate via anchoring projections, joined to and which extend away from the foil, embedded in the resin to prevent or limit deformations of the support plate in the use of the assembly.

A coated backing plate for a brake pad and method of manufacturing a brake pad having a coated backing plate, where the coating for the backing plate includes a bond layer. The bond layer includes an inboard surface, an outboard surface, a closed pore network toward the outboard surface that faces the inboard surface of the reinforcement plate, and an open pore network at the inboard surface of the bond layer. The open pore network includes a recessed topology having a plurality of craters configured to interlock a friction material of a friction pad or one or more intermediate layers, such as a transition layer and/or a thermal barrier layer.

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 brake disk formed of a light weight ceramic and ceramic composite materials, the brake disk having a coating overlying at least a portion of the brake disk. The brake disk includes parallel surfaces wherein at least a portion of the parallel surfaces are coated with a coating material to increase wear and decrease corrosion. The coating over the brake disk includes multiple layers of the coating material, wherein the coating material includes coating material particles configured to construct a pattern of repetition that is consistent with a lattice structure when applied over the parallel surfaces of the brake disk.

A friction disk of a braking system may include a friction disk core and a first wear liner. The friction disk core has an outer surface that defines a recess extending gradually inward from the outer surface, according to various embodiments. The wear liner mates to the outer surface of the friction disk core and includes a wear surface and a first non-wear surface, according to various embodiments. The first wear liner further includes a notch extending gradually outward from the first non-wear surface of the wear liner, according to various embodiments. In an installed state, the notch is received within the recess, according to various embodiments.

Example bicycle disc brake rotors are described herein. An example disc brake rotor described herein includes a core having a brake surface core portion and a single-piece brake track coupled to the brake surface core portion. The brake track is constructed of stainless steel. The brake track includes a first track on a first side of the brake surface core portion, a second track on a second side of the brake surface core portion, and a connecting portion extending over a peripheral edge of the brake surface core portion between the first and second tracks.

A cast iron and ceramic composite disc brake includes a brake surface, wherein the brake surface is provided with a plurality of annularly arranged grooves in a circular direction, the annularly arranged groove is provided with a filler, and the filler is made of a ceramic resin fiber. In the present disclosure, the gray cast iron and the ceramic fiber resin material are composited under a high pressure, which greatly reduces the weight, greatly increases a friction coefficient, and shortens a braking distance by . Moreover, the installation is convenient, and the heat dissipation performance and the heat resistance performance are better, which is safe and reliable to use.

A method for making a brake disc may include providing a disc brake with a braking band and depositing on the disc a layer of chromium carbide and nickel-chromium in particle form to form a base protective coating. The method may also include depositing on the base protective coating a material in particle form consisting of tungsten carbide, iron, chromium and aluminium to form a surface protective coating made of tungsten carbide, iron, chromium and aluminium. Both protective coatings may be made by High Velocity Oxygen Fuel or High Velocity Air Fuel or Kinetic Metallization techniques.

A method of producing a friction material. The method includes mixing silica containing filler particles and a liquid binder to form a binder-filler liquid mixture. The method also includes saturating a fibrous base material with the binder-filler liquid mixture to form a saturated fibrous base material. The method further includes curing the saturated fibrous base material at a predetermined temperature for a predetermined time to cure the saturated fibrous base material to form the friction material.