An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties
Bogunovic L, Zünkeler S, Tönsing K, Anselmetti D (2015)
Tribology Letters 29(2): 59.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Abstract / Bemerkung
We evaluated the performance of five different commercially available nanoparticle classes as additives for an oil-based lubrication system. While the silicon dioxide particles Aerosil® 300, RY300, and R972V tended to increase wear and friction in our 100Cr6 versus cast iron disc–disc contact, Aeroxide® P 25 and especially T 805 TiO2 nanoparticles showed superior anti-wear and anti-friction properties. The underlying tribological mechanism was investigated with optical microscopy, helium ion microscopy, and X-ray photoelectron spectroscopy. Subsequently, we formulated a stable lubrication system based on the best performing T 805 particles. Here, the base oil is a highly purified paraffin oil which was supplemented with 1 wt% T 805 TiO2 particles, 1 wt% Estisol® 242 or 1 wt% oleic acid, 0.15 wt% oleylamine, and 0.15 wt% Pluronic® RPE 2520. Superior lubrication and anti-wear properties of this formulation were demonstrated in 4-h test runs with a normal force of F N = 2.5 kN and a sliding velocity of 0.15 m/s in our disc–disc contact. Wear was significantly reduced along with a nearly 12-fold reduction in the friction coefficient, compared to the base oil (μftobase=0.155vs.μftoT805≈0.01). Using 100Cr6 disc–ball contacts, we additionally analyzed the properties of our lubrication system in the border friction regime under higher loads (F N = 0.5 kN) in 2-h runs. In particular, on the discs with lower engagement ratio, chemo-tribological protective layers were built, which protected the parts very well against wear.
Stichworte
Dispersion;
Nanoparticle additives;
Lubrication;
Wear;
Titanium dioxide;
Friction
Erscheinungsjahr
2015
Zeitschriftentitel
Tribology Letters
Band
29
Ausgabe
2
Art.-Nr.
59
ISSN
1023-8883
Page URI
https://pub.uni-bielefeld.de/record/2759012
Zitieren
Bogunovic L, Zünkeler S, Tönsing K, Anselmetti D. An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties. Tribology Letters. 2015;29(2): 59.
Bogunovic, L., Zünkeler, S., Tönsing, K., & Anselmetti, D. (2015). An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties. Tribology Letters, 29(2), 59. doi:10.1007/s11249-015-0557-7
Bogunovic, Lukas, Zünkeler, Sebastian, Tönsing, Katja, and Anselmetti, Dario. 2015. “An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties”. Tribology Letters 29 (2): 59.
Bogunovic, L., Zünkeler, S., Tönsing, K., and Anselmetti, D. (2015). An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties. Tribology Letters 29:59.
Bogunovic, L., et al., 2015. An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties. Tribology Letters, 29(2): 59.
L. Bogunovic, et al., “An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties”, Tribology Letters, vol. 29, 2015, : 59.
Bogunovic, L., Zünkeler, S., Tönsing, K., Anselmetti, D.: An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties. Tribology Letters. 29, : 59 (2015).
Bogunovic, Lukas, Zünkeler, Sebastian, Tönsing, Katja, and Anselmetti, Dario. “An Oil-Based Lubrication System Based on Nanoparticular TiO2 with Superior Friction and Wear Properties”. Tribology Letters 29.2 (2015): 59.
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