A bogie and a rail vehicle, wherein the bogie includes: a framework, a wheel pair connected to the framework, a braking hanger fixed to the framework, a hanger slider used for fixedly connecting to a vehicle wheel braking clamp, and a transmission member; the hanger slider is connected to the braking hanger, and the transmission member is connected to the hanger slider; a first end of the transmission member extends to a side surface of a vehicle wheel in the wheel pair, and the transmission member is used to drive the hanger slider to move along the lateral direction with respect to the braking hanger when the first end is subjected to a thrust applied in the lateral direction by the vehicle wheel, so that the vehicle wheel braking clamp moves to a position corresponding to the vehicle wheel.

Braking systems for railway cars are provided. A braking system defines a longitudinal axis, and includes a first brake assembly, a second brake assembly, and an actuator operable to generate a linear force, the actuator disposed proximate the second brake assembly. The braking system further includes a movable rod and a fixed rod extending between the first brake assembly and the second brake assembly. In some embodiments, the braking system further includes a dead lever and a slack adjuster disposed proximate the first brake assembly, the slack adjuster connected to the first brake assembly and the dead lever and operable to adjust a distance along the longitudinal axis between a reference point of the first brake assembly and a pivot point of the dead lever.

Braking systems for railway cars are provided. A braking system defines a longitudinal axis, and includes a first brake assembly, a second brake assembly, and an actuator operable to generate a linear force, the actuator disposed proximate the second brake assembly. The braking system further includes a movable rod and a fixed rod extending between the first brake assembly and the second brake assembly. In some embodiments, the braking system further includes a dead lever and a slack adjuster disposed proximate the first brake assembly, the slack adjuster connected to the first brake assembly and the dead lever and operable to adjust a distance along the longitudinal axis between a reference point of the first brake assembly and a pivot point of the dead lever.

Braking systems for railway cars are provided. A braking system defines a longitudinal axis, and includes a first brake assembly, a second brake assembly, and an actuator operable to generate a linear force, the actuator disposed proximate the second brake assembly. The braking system further includes a movable rod and a fixed rod extending between the first brake assembly and the second brake assembly. In some embodiments, the braking system further includes a dead lever and a slack adjuster disposed proximate the first brake assembly, the slack adjuster connected to the first brake assembly and the dead lever and operable to adjust a distance along the longitudinal axis between a reference point of the first brake assembly and a pivot point of the dead lever.

A braking system (200) is described for at least one vehicle (V), particularly at least one railway vehicle, comprising control means arranged to: a) determine a real instantaneous deceleration value of the vehicle during the actuation of braking means (202); b) determine a real friction value between braking means and at least one wheel or at least one disc, as a function of at least said real instantaneous deceleration value, a test mass value of the vehicle and a value of an actuation signal; c) replace a predetermined expected friction value stored in the storage medium (210, 210) with the determined real friction value.

Further described is a system for calibrating a braking system of at least one vehicle, and a process for calibrating a braking system of at least one vehicle (V), and vehicles.

An electromechanical actuator (200) for a braking system of a vehicle (V), particularly a railway vehicle, is described, characterized in that it includes a first control means (202) arranged to receive from a speed sensor means (204, 204), associated with a wheel (w) of the vehicle, a speed signal having a value indicative of an angular speed of the wheel (w) of the vehicle.

A braking system and a vehicle are also described.

A masterbatch containing an organic base component and heat-expandable microspheres including a thermoplastic resin shell and a thermally vaporizable blowing agent encapsulated therein. The organic base component has a melting point not higher than the expansion-initiation temperature of the heat-expandable microspheres and a melt flow rate (MFR, g/10 mm) higher than 50 and not higher than 2200. A ratio of the heat-expandable microspheres ranges from 30 to 80 wt % of the total weight of the heat-expandable microspheres and the organic base component. Also disclosed is a molding composition, a foamed molded article manufactured by molding the molding composition and a weathers tripping.

The invention relates to electronic braking indication systems for at least one vehicle, which systems comprise at least one electromechanical actuator (202) arranged to apply a braking force (F). In one aspect the invention relates to an electronic braking indication system comprising at least one force sensor means (204) arranged to measure the applied braking force (F), at least one electronic visual signaling device (206), comprising at least one first and one second electronic light source (208, 210), and at least one control means (212) arranged to receive the measured value of the braking force (F) and: a) switch on the first electronic light source (208) when the value of the braking force (F) is lower than a first threshold (THRESHOLD 1); b) switch on the second electronic light source (210) when the value of the braking force (F) is greater than the first threshold (THRESHOLD 1). In another aspect the invention relates to an electronic braking indication system comprising at least one force sensor means (204) arranged to measure the applied braking force (F), at least one electronic visual signaling device (206), comprising at least one first and one second electronic light source (208, 210), and at least one control means (212) arranged to receive the measured value of the braking force (F) and: a) switch on said first electronic light source (208) when said measured value of the braking force (F) is lower than or equal to a first threshold (THRESHOLD 1); b) switch on said second electronic light source (210) when said measured value of the braking force (F) is greater than or equal to a second threshold (THRESHOLD 2) different from said first threshold (THRESHOLD 1).