Influence of morphology of anti-wear nano additives on Tribological behavior of Chemically Modified Rapeseed Oil

“…TEM micrographs of the morphology of different nanoparticles. (a) Elliptical Al 2 O 3 /SiO 2 composite NPs, 42 (b) fibrous Al 2 O 3 wire nano, 43 (c) oblate MoS 2, 44 (d) halloysite nanotubes. 45 …”

“…Arumugam et al 43 investigated the effect of fibrous Al 2 O 3 wire nano-additives to CMRO on tribological performance. The test was made using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1–4 m/s and the initial lubricating oil temperature was 35°C.…”

“…Arumugam et al 43 studied the physiochemical properties of CMRO with TiO 2 nano-additives compared to CMRO without nano-additives. As derived from Table 3 which shows the values of different physiochemical properties before and after mixing the NP in bio-oils.…”

“…The test was made using four test balls with a load of 95N, a sliding speed of 1.37 m/ s and a temperature of 75°C.The results derived from Figure 5(a) showed reduction in COF and wear of 11.1% and 9.47%, respectively, at optimum concentration of 0.9 wt%, compared to mineral oil without nano-additives. Arumugam et al 43 investigated the effect of TiO 2 nano-additives to chemically modified rapeseed oil (CMRO) on tribological performance. The test was carried out using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1-4 m/s and the initial lubricating oil temperature was 35°C.…”

“…While using oil G caused a decrease in wear volume for cylinder liner specimen and piston ring specimen by 30.7% and 51.9%, respectively compared to blank palm TMP ester. Arumugam et al 43 investigated the effect of fibrous Al 2 O 3 wire nano-additives to CMRO on tribological performance. The test was made using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1-4 m/s and the initial lubricating oil temperature was 35°C.…”

A review of the tribological properties of nanoparticles dispersed in bio-lubricants

“…TEM micrographs of the morphology of different nanoparticles. (a) Elliptical Al 2 O 3 /SiO 2 composite NPs, 42 (b) fibrous Al 2 O 3 wire nano, 43 (c) oblate MoS 2, 44 (d) halloysite nanotubes. 45 …”

“…Arumugam et al 43 investigated the effect of fibrous Al 2 O 3 wire nano-additives to CMRO on tribological performance. The test was made using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1–4 m/s and the initial lubricating oil temperature was 35°C.…”

“…Arumugam et al 43 studied the physiochemical properties of CMRO with TiO 2 nano-additives compared to CMRO without nano-additives. As derived from Table 3 which shows the values of different physiochemical properties before and after mixing the NP in bio-oils.…”

“…The test was made using four test balls with a load of 95N, a sliding speed of 1.37 m/ s and a temperature of 75°C.The results derived from Figure 5(a) showed reduction in COF and wear of 11.1% and 9.47%, respectively, at optimum concentration of 0.9 wt%, compared to mineral oil without nano-additives. Arumugam et al 43 investigated the effect of TiO 2 nano-additives to chemically modified rapeseed oil (CMRO) on tribological performance. The test was carried out using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1-4 m/s and the initial lubricating oil temperature was 35°C.…”

“…While using oil G caused a decrease in wear volume for cylinder liner specimen and piston ring specimen by 30.7% and 51.9%, respectively compared to blank palm TMP ester. Arumugam et al 43 investigated the effect of fibrous Al 2 O 3 wire nano-additives to CMRO on tribological performance. The test was made using a pin-on-disk tribometer with a load of 100N, a sliding speed of 1-4 m/s and the initial lubricating oil temperature was 35°C.…”

A review of the tribological properties of nanoparticles dispersed in bio-lubricants

Bio-Based Nano-Lubricants for Sustainable Manufacturing

Evaluation of the tribological and anticorrosive properties of triazine derivatives in emulsion