In European railways, the use of UIC draw gear and side buffers to connect individual railway vehicles within a~train is still established. The buffers ensure the transmission of longitudinal compressive forces    between the adjacent vehicles; longitudinal tensile forces are    transmitted by means of the UIC draw gear, a drawbar hook and a screw coupling. Therefore, the stiffness characteristics of the draw and buffing gear are important from the point of view of longitudinal train    dynamics, as well as running safety. This paper deals with the stiffness    characteristics of railway buffers. The basic requirements for    suspension elements used in the buffers are summarised. The solution of    tasks in the field of modelling of dynamic phenomena during train running requires knowledge of the dynamic stiffness characteristics of these elements, which, however, are not determined by default. Therefore, experimental measurements of these characteristics were made on the dynamic test stand of the Faculty of Transport Engineering of the    University of Pardubice. The experience from the evaluation of these    measurements is summarised in the paper. Furthermore, attention is paid to the development of a new computational model of the buffers for use in multibody simulations, considering the results of the physical tests.

railway buffer; stiffness characteristics; measurement; multibody simulation