L increases, the becomes extra uneven. Itof the MRTX-1719 Autophagy machined surfacefeed rate increases, the material removal rate in the machined surface increases, however the all round height deviation of height deviation from the machined surface gradually increased.the machined surface progressively elevated.Micromachines 2021, 12, x13 ofFigure 10. Impact of feed price on the three-dimensional surface roughness. (Grinding depths: six , Figure 10. Effect of feed rate on the three-dimensional surface roughness. (Grinding depths: 6 m, Grinding wheel linear speeds: 600 mm/min).Grinding wheel linear speeds: 600 mm/min).(a)(b)Figure 11. Comparison of three-dimensional surface microstructure under different feedresults.(Grinding depths: six m, Grinding wheel linear speeds: 600 mm/min). (a) White light interferometer observation prices. (b) Scanning electron Grinding wheel linear speeds: 600 mm/min). (a) White light interferometer observation outcomes. (b) Scanning electron mimicroscope observation final results. croscope observation benefits.Figure 11. Comparison of three-dimensional surface microstructure below unique feed rates. (Grinding depths: six ,The comparison of predicted and actual values from the three-dimensional surface The comparison of predicted of TUAG below various grinding wheel linear surface roughness of the Nano-ZrO2 ceramic and actual values of the three-dimensionalspeed roughnessin FigureNano-ZrO2 ceramic of TUAG that as the grinding wheel linear speed is shown from the 12. It may be noticed from Figure 12 below unique grinding wheel linear vs increases, S and Sq progressively decreases, the Figure 12 that because the grinding wheel linear speed is shownain Figure 12. It can be seen fromcalculated final results with the prediction model established MNITMT Inhibitor within this study are consistent together with the actual values calculated resultsexperiment, speed v s increases, Sa and S q steadily decreases, the obtained in the in the predicwhich reflects the reliability on the calculation process and related model proposed within this tion model established in this study are consistent using the actual values obtainedthe study. Figure 13 shows the comparison in the three-dimensional microstructure of from the experiment, which reflects the reliability from the calculation method and related model machined surface of Nano-ZrO2 ceramics beneath various grinding wheel linear speeds. proposed inwith study. Figure 13 of Nano-ZrO2 ceramic ultra-precision grinding surface Combined this the height model shows the comparison of the three-dimensional microstructure from the machined surface of study, the observationunder distinct grinding can residual material established in this Nano-ZrO2 ceramics outcomes have been analyzed, it wheel linear speeds. Combined with thelinear speed increases, the micro-crush damage of your be noticed that because the grinding wheel height model of Nano-ZrO2 ceramic ultra-precision grinding surface residual material establishedheight and valley depth from the machined machined surface is weakened, along with the peak within this study, the observation outcomes had been surface it might be and that as the height deviation in the machined surface micro-crush analyzed,decrease, observed the general grinding wheel linear speed increases, the decreases progressively. In addition, the accumulation of residual supplies on the surface in the course of of damage from the machined surface is weakened, along with the peak height and valley depth thethe grinding surface reduce, as well as the overall height deviation with the machined surface machined approach is weake.
