An articulated connector for a rail vehicle having a plurality of rail car bodies including a first and a second rail car body supported on a bolster of a Jacobs bogie. The articulated connector includes a spherical joint mechanism connecting the first rail car body and the second car body to one another, the spherical joint mechanism having at least two spherical joint bearings, and the spherical joint mechanism being disposed on the bolster of the Jacobs bogie.

An articulated rail-transport car for transporting long sections of ribbon rail is described. The car includes a plurality of segments arranged end-to-end and coupled and supported at their adjacent ends by shared trucks. Dedicated trucks are provided near each terminal end of the car and couplers configured to couple to an adjacent rail car are provided at the respective terminal ends. Rail stands are disposed along the length of the car with a spacing that is independent of the locations of the shared and dedicated trucks and that provides a greater number of rail stands than trucks. The segments may be configured to enable interchangeability and to allow any number of the segments to be included in the car. A plurality of the cars can be coupled to enable transport of ribbon rails of any length.

A railroad well car includes a spaced trucks grouped in pairs, and a railcar body supported on a pair of the trucks, the body comprising a pair of spaced end structures, each end structure supported on one truck, and a well structure extending between the end structures. The well structure comprises a pair of top chord members extending between the end structures; a pair of side sills extending between the end structures. The rail car includes safety platform and handbrake wherein operator walkway platforms are included with co-planer end walkways and running boards, wherein the running boards are above the top chords of the sidewalls of the well car; and a handbrake operated with a hand wheel is mounted on one side of the railroad well car, which hand wheel extends below the top chords of the side walls of the well car whereby the hand wheel is accessible from the side of the railcar via an operator on the ground.

A railroad well car includes a spaced trucks grouped in pairs, and a railcar body supported on a pair of the trucks, the body comprising a pair of spaced end structures, each end structure supported on one truck, and a well structure extending between the end structures. The well structure comprises a pair of top chord members extending between the end structures; a pair of side sills extending between the end structures. The rail car includes safety platform and handbrake wherein operator walkway platforms are included with co-planer end walkways and running boards, wherein the running boards are above the top chords of the sidewalls of the well car; and a handbrake operated with a hand wheel is mounted on one side of the railroad well car, which hand wheel extends below the top chords of the side walls of the well car whereby the hand wheel is accessible from the side of the railcar via an operator on the ground.

An articulated connector for a rail vehicle having a plurality of rail car bodies including a first and a second rail car body supported on a bolster of a Jacobs bogie. The articulated connector includes a spherical joint mechanism connecting the first rail car body and the second car body to one another, the spherical joint mechanism having at least two spherical joint bearings, and the spherical joint mechanism being disposed on the bolster of the Jacobs bogie.

According to some embodiments, a railcar comprises a well component disposed between a pair of trucks. A pair of end sections are disposed at each end of the railcar. An end section comprises a well platform disposed near an end of the well component; an end platform disposed near an end of the railcar; and a connecting platform extending between the end platform and the well platform. A pair of ladders may be coupled to each end of the end platform. A first handrail may extend between the ladders and along an outside edge of the end platform. A second handrail may extend from a ladder, along an inside edge of the end platform, along an edge of the connecting platform, and along an inside edge of the well platform. A third handrail may extend along an edge of the well platform adjacent to the well component.

According to some embodiments, a railcar comprises a railcar body comprising at least one end or side arranged in a generally vertical plane. The railcar comprises a staggered ladder coupled to the railcar body and extending in a generally vertical direction. The staggered ladder comprises a plurality of steps that are staggered such that at least one step proximate a bottom of the ladder is offset from the generally vertical plane of the railcar body by a greater distance than at least one step proximate a top of the ladder. The railcar further comprises a staggered handrail coupled to the rail car body and proximate the staggered ladder, wherein a bottom portion of the staggered handrail is offset from the vertical plane of the railcar body by a greater distance than a top portion of the staggered handrail.

According to some embodiments, a railcar comprises a pair of trucks disposed near each end of the railcar. A well component supported by the pair of trucks is disposed between the pair of trucks. A pair of end sections are disposed at each end of the railcar. At least one end section of the pair of end sections comprises a well platform disposed near an end of the well. A step is coupled to the well platform and extends into the well component to facilitate operator egress from the well component to the well platform. A handrail is proximate the step, the handrail is sized to accommodate a hand of the operator. The handrail may be positioned above the step and below the well platform.

According to some embodiments, a method of improving weld fatigue performance in a railcar weld comprises identifying a railcar weld subject to dynamic loads; determining the railcar weld is prone to fatigue; applying an impact treatment to the railcar weld using transducer coupled to one or more pins, wherein the one or more pins are configured to contact the railcar weld without interference from other portions of the railcar. According to some embodiments, an impact treatment device for a railcar comprises a transducer coupled to one or more pins for imparting an impact to a railcar weld. The transducer and the one or more pins are configured to put the one or more pins in contact with the railcar weld without interference from other portions of the railcar. The transducer comprises one of an ultrasonic transducer, a piezoelectric transducer, or a pneumatic transducer.