A brake module for a drive system, in particular for doors, including at least one thrust washer and at least one brake disc, wherein the at least one thrust washer and the at least one brake disc each have at least one friction surface rubbing against each other during braking operation is provided. The embodiments also relate to a drive system, in particular for doors, including such a brake module. The embodiments further relate to a production method for a brake module of the abovementioned type. Known brake modules have a high variation in the braking force on the one hand in the course of their service life and on the other hand as a function of the temperature.

The present disclosure describes brake rotor preforms and brake pads configured to reduce fracturing and failure of brake rotors by distributing the axial force applied during braking across butt joints between abutting segments of preforms and rotors manufactured therefrom. The preforms comprise a spiral annular structure formed about a longitudinal axis from a plurality of carbon fiber precursor tow segments having a partial annular shape. Each segment is asymmetrical when viewed in the longitudinal axis direction and configured so planes defined by the segment's ends are never coplanar with planes extending radially from the longitudinal axis. The brake pads have a partial annular shape and ends adapted to prevent planes defined by the ends from being coplanar during use with a plane extending radially from a brake rotor longitudinal axis.

A carrier pot for a brake disc includes a radially inner hub ring portion for fastening to a wheel hub and a radially outer brake disc ring portion for fastening to the brake disc. The carrier pot is made from a fiber-reinforced plastic which has a plurality of fiber layers. The fibers of at least two adjacent fiber layers are oriented such that the fiber layers run differently with respect to one another.

A method of making a wet friction material includes providing an outer layer on a base layer to form the wet friction material. The base layer includes a proportion of first fiber material and a proportion of first filler material and the outer layer includes a proportion of second fiber material and a proportion of second filler material. The proportion of second fiber material is less than the proportion of first fiber material and the proportion of second filler material is greater than the proportion of first filler material. The method also includes forming a plurality of orifices passing through the outer layer.

A carrier pot for a brake disc includes a radially inner hub ring portion for fastening to a wheel axle, a radially outer brake disc ring portion for fastening to the brake disc, and at least one electric/electronic functional component. The carrier pot is made from a fiber-plastic composite and the at least one electric/electronic functional component is integrated into the fiber-plastic composite.

A long-strand carbon composite brake housing for use on aircraft is formed from a thermoplastic material carrying long-strand carbon fibers, with the composition, concentration, and orientation of the fibers being such as to optimize the strength of the resultant carrier plate, and particularly in regions subject to high stress and the like. A hydroforming technique accommodates the appropriate positioning of the thermoplastic carbon composition in the desired regions of varying concentrations, compositions, and orientations to achieve a carrier plate for aircraft brake assemblies that is lightweight while being reliable and durable in use.

A pressure plate for a friction coupling such as a clutch or brake system includes one or more pockets with a phase change material disposed therein. The phase change material operates to absorb and release heat when the friction coupling cycles between activation and deactivation so as to minimize a maximum temperature of the pressure plate.

A shaped material, for example, a disc for disc brakes, and a method for the manufacturing thereof. The shaped material has a plurality of layers of carbon fibers stacked along an overlap axis, each layer being formed by a plurality of radial segments and transverse segments. Each radial segment is adjacent and joined, on both sides, to a transverse segment and each transverse segment is adjacent and joined, on both sides, to a radial segment, forming in each layer an alternation of radial segments and transverse segments.

A brake disc for disc brake comprising a braking band rotating about the rotation axis; a bell rigidly and torsionally connected to the hub of a vehicle and functionally constrained to said braking band and adapted to transmit the rotational motion to said brake disc; wherein said bell comprises at least one corrugated element made of a fiber-reinforced polymer or carbon-ceramic material, adapted to allow a rotation of said bell, which is integral with said hub about said rotation axis, a rotation of the disc constrained thereto, about an axis normal to said rotation axis through elastic deformation, and a translation along said rotation axis through elastic deformation.

In some examples, a method including depositing a resin and a plurality of carbon fibers via a print head of a three-dimensional printing system to form a carbon fiber preform including a plurality of individual carbon fiber layers, wherein each individual layer of the plurality of individual carbon fiber layers includes the resin and carbon fibers, and wherein the carbon fiber preform exhibits at least one of a non-uniform composition of the resin within the preform, different types of the carbon fibers within the preform, or non-uniform fiber orientation within the preform.