A Schematic Diagram Of The Pin On Disk Sliding Wear Test Apparatus Figure 1 shows the schematic diagram and the photograph of the test apparatus. the slip disk (u300 mm) was made of cu 0.5%cr alloy, with a hardness of 165 hv 0.2 and an electrical. The taguchi result shows that the wear test in optimal condition is carried out with a wt.% loading of α mno2 of 0.5%, a sliding distance of 500 m, a sliding velocity of 1.5 m s, and an.
A Schematic Diagram Of The Pin On Disk Sliding Wear Test Apparatus During the test, the pin was held and pressed on the surface of a hardened en32 steel disc (60 hrc) by applying load that act as counter weight and balances the pin. Schematically, the pin on disk test is depicted in the figure above. the stationary pin is pressed against rotating disk under the given load. Wear surfaces, subsurface regions and debris particles of typical wear tested samples were examined using a jeol 35cf scanning electron microscope (sem) attached with a wavelength dispersive x ray spectroscopic (wdxs) fa cility. Wear surfaces of (a, c and e) matrix alloy and (b and d) composite tested in (a and b) dry, (c and d) oil lubricant, and (e) oil plus 4% graphite lubricant mixture at 14 kg load (single arrow: deep groove, double arrow: exposed sic particles and a: lubricating layer).
A Photograph Of Sliding Wear Test Apparatus B The Schematic Of Wear surfaces, subsurface regions and debris particles of typical wear tested samples were examined using a jeol 35cf scanning electron microscope (sem) attached with a wavelength dispersive x ray spectroscopic (wdxs) fa cility. Wear surfaces of (a, c and e) matrix alloy and (b and d) composite tested in (a and b) dry, (c and d) oil lubricant, and (e) oil plus 4% graphite lubricant mixture at 14 kg load (single arrow: deep groove, double arrow: exposed sic particles and a: lubricating layer). Apparatus 5.1 general description—fig. 1 shows a schematic drawing of a typical pin on disk wear test system.4 one type of typical system consists of a driven spindle and chuck for holding the revolving disk, a lever arm device to hold the pin, and attachments to allow the pin specimen to be forced against the revolving disk specimen with a. Fig. 1 shows a schematic overview of the pin on disk test stand used during the sliding wear tests. the experiment details include a rotating stainless steel disk rotate against hemi spherically ended metal pin. Figure 2 shows a schematic of the wear test apparatus used in this study (figure 2 a) and the sliding wear test using the pin on disc approach (figure 2 b). 1. scope the wear of materials during sliding using a pin on disk apparatus. ma erials are tested in pairs under nominally non abrasive conditions. the principal areas of experimental atte tion in using this type of apparatus to measure wea.