FRICTION MATERIAL

Brand	Owner	Address	Description
COSID	TMD FRICTION SERVICES GMBH	Schlebuscher Str. 99 Leverkusen 51381 Germany	Friction material, namely, brake pads for driving machines, conveyor machines, construction machines, agricultural machines, machine tools, machine elements as well as power machines and processing machines; clutch facings and transmission components, other than for vehicles; brake linings other than for vehicles; disc brake linings for wind power installations, construction machines, cranes, hoists, floor conveyors and for general mechanical engineering, industrial brakes; friction pads for forming presses and forging presses; brake bands for hoists, winches and for conveyor machines; brake and clutch linings as machine elements for use in drive engineering, agriculture, military technology and mechanical engineering;Friction material for vehicles, namely, brake pads, in particular for motor vehicles, building and mine vehicles off-road rail vehicles, namely, long distance trains, regional trains, freight cars, locomotives, metro applications, street cars and light rail vehicles, monorails; friction materials, namely, brake pads for apparatus for locomotion by land or water; machine coupling and transmission components for land vehicles, namely, long distance trains, regional trains, freight trains, freight cars, locomotives, metro applications, street cars and light rail vehicles, monorails; trailer couplings and clutches for vehicles, railway couplings; brake linings, namely, disc brake linings, block brake linings, drum brake linings and clutch linings for vehicles; disc brake linings for rail vehicles; drum brake linings for motor vehicles, trailer, rail and special-purpose vehicles and military vehicles; brake bands for passenger vehicles and trailers;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A friction disc, in particular a brake or clutch disc, includes carbon fiber-reinforced ceramic composite material with at least one top surface formed as a friction surface. At least part of the friction surface is formed of a different material, in particular of a carbon-containing material. The different material exhibits lower wear and oxidation resistance than that of the rest of the friction surface and a supporting zone of the friction disc. A visual, audible or mechanical signal is produced under operating conditions due to comparatively greater wear. The signal provides a warning that the service life of the friction disc is being exceeded. A process for producing the friction disc is also provided.