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Beilstein J. Nanotechnol. 2017, 8, 1476–1483, doi:10.3762/bjnano.8.147
Figure 1: Schematic illustration for the synthesis of N-rGO.
Figure 2: N-rGO dispersion nanolubricant at different concentration.
Figure 3: Schematic of the ball-pot assembly in a four-ball tester.
Figure 4: Coefficient of friction at low N-rGO concentrations.
Figure 5: Coefficient of friction at high N-rGO concentrations.
Figure 6: Variation of COF over time for base oil and nanolubricant with N-rGO (3 mg/L).
Figure 7: Wear scar diameter (WSD) of stainless steel balls lubricated with (a) base oil and (b) N-rGO nanolu...
Figure 8: Comparison of the measured temperature of base oil and N-rGO (3 mg/L) nanolubricant as a function o...
Figure 9: Unit load and current of ID fan A and B for (a) Ch 1, (b) Ch 2 before overhaul (replacement of base...
Figure 10: Power Consumption data for ID Fan A and B for few months.