%0 Generic %A Sun, A. R. Warmuth W. %A Shipway, P. H. %D 2016 %T Each file has a figure number which clearly relates the data to the figure as presented. from The roles of contact conformity, temperature and displacement amplitude on the lubricated fretting wear of a steel-on-steel contact %U https://rs.figshare.com/articles/dataset/Each_file_has_a_figure_number_which_clearly_relates_the_data_to_the_figure_as_presented_from_The_roles_of_contact_conformity_temperature_and_displacement_amplitude_on_the_lubricated_fretting_wear_of_a_steel-on-steel_contact/4009803 %R 10.6084/m9.figshare.4009803.v1 %2 https://rs.figshare.com/ndownloader/files/6452904 %K fretting wear %K contact geometry %K temperature %K displacement amplitude %K lubricant %K wear mechanism %X This paper investigates the effect of contact geometry, temperature and displacement amplitude on the fretting behaviour of an aero-turbo oil lubricated cylinder-on-flat contact. To be effective, the lubricant needed both to penetrate the contact and then offer protection. Lubricant penetration into the fretting contact is found to be controlled by two physical parameters, namely (i) the width of the contact that remains covered throughout the fretting test and (ii) the lubricant viscosity. The protection offered by the lubricant (assuming that it has successfully penetrated the contact) is influenced by four physical parameters, namely (i) lubricant viscosity, (ii) traverse velocity, (iii) nominal contact pressure and (iv) chemical effects. The relationship between the three experimental parameters which were varied in the programme of work (temperature, fretting displacement and cylinder radius) and physical parameters which influence the protection offered by the lubricant film can be competing, and therefore, complex wear behaviour is observed. The roles of the various parameters in controlling the wear behaviour are presented in a coherent physical framework. %I The Royal Society