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Lubricants, Volume 9, Issue 6 (June 2021) – 7 articles

Cover Story (view full-size image): Greased bearings in electric motors are subject to a range of operating and environmental conditions. Here, the tribological performance of four market-available electric motor greases was characterized for using benchtop tests with hybrid-bearing materials. The greases had similar viscosity grades but different combinations of polyurea or lithium thickener with mineral or synthetic base oil. Both thickener and base oil were shown to affect tribological performance across a range of temperature and surface-roughness conditions. Cover figure credit: Dwaine (Greg) Morris. View this paper.
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10 pages, 4402 KiB  
Article
Wear Resistance of TiAlCrSiN Coatings Deposited by Means of the Co-Sputtering Technique
by Fredy Antonio Estupiñan, Carlos Mauricio Moreno, Jhon Jairo Olaya and Luis Carlos Ardila
Lubricants 2021, 9(6), 64; https://doi.org/10.3390/lubricants9060064 - 21 Jun 2021
Cited by 6 | Viewed by 2360
Abstract
TiAlCrSiN thin films were deposited on K20 WC–Co substrates using the co-sputtering method. The silicon content in the deposited coatings were varied by modifying the number of silicon pieces (1, 2, or 3) on the Cr target. The morphology, semi-quantitative chemical composition, and [...] Read more.
TiAlCrSiN thin films were deposited on K20 WC–Co substrates using the co-sputtering method. The silicon content in the deposited coatings were varied by modifying the number of silicon pieces (1, 2, or 3) on the Cr target. The morphology, semi-quantitative chemical composition, and microstructure were investigated using scanning electron microscopy (SEM), energy disperse spectroscopy (EDS), and X-ray diffraction (XRD), respectively. Modified ASTM B611 abrasive wear and nano-hardness tests were used to evaluate the tribological and mechanical properties of the different coatings, respectively. The results showed that the addition of Si promotes an increased hardness and elastic modulus. Also, mass loss in wear tests decreased as Si increased, due to the growth in hardness related to the microstructural refinement produced by the blocking of sliding bands by the grain boundaries. Full article
(This article belongs to the Special Issue Tribological Applications of Nano & Submicro Structured Materials)
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15 pages, 1617 KiB  
Article
Artificial Aging Experiments of Neat and Contaminated Engine Oil Samples
by András Lajos Nagy, Jan Rohde-Brandenburger and Ibolya Zsoldos
Lubricants 2021, 9(6), 63; https://doi.org/10.3390/lubricants9060063 - 19 Jun 2021
Cited by 10 | Viewed by 3023
Abstract
This study highlights how the results from an artificial engine oil aging method compare to used engine oil samples collected from a vehicle fleet. Additionally, this paper presents the effect of contaminating the oil during aging with synthetic fuel alternatives on the physical [...] Read more.
This study highlights how the results from an artificial engine oil aging method compare to used engine oil samples collected from a vehicle fleet. Additionally, this paper presents the effect of contaminating the oil during aging with synthetic fuel alternatives on the physical and chemical properties of artificially aged engine oil samples. A laboratory-scale artificial thermo-oxidative aging experiment was conducted on multiple samples of commercially available formulated fully-synthetic SAE 0W-30 engine oil. The goal of the experiment was to establish the validity of the artificially aged samples as well as the validity of the underlying process in reproducibly fabricating small batches of aged engine oil with comparable chemical and physical properties to real-life used oils. Eight samples were subjected to distinct load cases (temperature, air flow rate, sample volume and aging time). Six additional samples were subjected to an intermediate load case, with five of them contaminated with selected conventional fuels and novel automotive fuel candidates. Conventional oil analysis was conducted on each sample to determine oxidation, residual additive content, kinematic viscosity and total base number. Additionally, analysis results were compared to in-use engine oil samples through PCA. The resulting oil condition after aging is in accordance with independently published results in terms of zinc dialkyldithiophosphate content and kinematic viscosity. Contaminated aging with OME 3-5 resulted in a drop in antioxidant content and elevated kinematic viscosity. Based on the comparison with in-use samples, artificial aging of 200 mL engine oil at 180 °C with 1 L/min air flow for 96 h can produce similar oil conditions as mixed vehicle use for 7000 km. Full article
(This article belongs to the Special Issue Automotive Tribology II)
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26 pages, 60924 KiB  
Article
Towards Ecological Alternatives in Bearing Lubrication
by Bachir Bouchehit, Benyebka Bou-Saïd and John Tichy
Lubricants 2021, 9(6), 62; https://doi.org/10.3390/lubricants9060062 - 9 Jun 2021
Cited by 2 | Viewed by 2887
Abstract
Hydrogen is the cleanest fuel available because its combustion product is water. The internal combustion engine can, in principle and without significant modifications, run on hydrogen to produce mechanical energy. Regarding the technological solution leading to compact engines, a question to ask is [...] Read more.
Hydrogen is the cleanest fuel available because its combustion product is water. The internal combustion engine can, in principle and without significant modifications, run on hydrogen to produce mechanical energy. Regarding the technological solution leading to compact engines, a question to ask is the following: Can combustion engine systems be lubricated with hydrogen? In general, since many applications such as in turbomachines, is it possible to use the surrounding gas as a lubricant? In this paper, journal bearings global parameters are calculated and compared for steady state and dynamic conditions for different gas constituents such as air, pentafluoropropane, helium and hydrogen. Such a bearing may be promising as an ecological alternative to liquid lubrication. Full article
(This article belongs to the Special Issue Research Trends in Hydrodynamic Journal and Thrust Bearings)
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19 pages, 7268 KiB  
Article
Numerical Study of a Journal Bearing with Scratches: Validation with Literature and Comparison with Experimental Data
by Anh T. Vo, Michel Fillon and Jean Bouyer
Lubricants 2021, 9(6), 61; https://doi.org/10.3390/lubricants9060061 - 5 Jun 2021
Cited by 5 | Viewed by 3678
Abstract
The lifespan of journal bearings is directly related to the operating conditions they have to face and reducing their maintenance intervals allows one to have a clear idea about their performance when issues occur. The presence of scratches on one of its surfaces [...] Read more.
The lifespan of journal bearings is directly related to the operating conditions they have to face and reducing their maintenance intervals allows one to have a clear idea about their performance when issues occur. The presence of scratches on one of its surfaces degrades the performance of a journal bearing. These effects have already been assessed in experiments; however, numerical studies on this subject are still scarce. This work develops a numerical thermohydrodynamic (THD) program using the finite volume method to simulate the effects of scratches on the performance of journal bearings. To test the validity of the program, the numerical results are compared with the scientific literature and with experimental measurements conducted using the Pprime Institute journal bearing test rig. Some minor discrepancies are observed, but the overall results are in good agreement. Full article
(This article belongs to the Special Issue Research Trends in Hydrodynamic Journal and Thrust Bearings)
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12 pages, 2905 KiB  
Article
A Study of Raindrop Impacts on a Wind Turbine Material: Velocity and Impact Angle Effects on Erosion MAPS at Various Exposure Times
by Samuel Groucott, Kieran Pugh, Iasonas Zekos and Margaret M Stack
Lubricants 2021, 9(6), 60; https://doi.org/10.3390/lubricants9060060 - 3 Jun 2021
Cited by 11 | Viewed by 3442
Abstract
Within renewable energy, challenging climates can impose great limitations on power generation. In wind energy, rain erosion on turbine blades can create major disruptions to air flow over the aerofoil, reducing the efficiency of the blade and immediately affecting the power output of [...] Read more.
Within renewable energy, challenging climates can impose great limitations on power generation. In wind energy, rain erosion on turbine blades can create major disruptions to air flow over the aerofoil, reducing the efficiency of the blade and immediately affecting the power output of the turbine. The defects in the materials that cause these inefficiencies are known and can be observed on turbines that have been in operation for extended periods. This work explores the transitions between different wear states for G10 Epoxy Glass under laboratory simulated wind turbine conditions in operation and measures the wear periodically to identify a progression of erosion. Mass loss data and micrographic analysis revealed samples at 45° and 60° displayed increasing erosion when examining erosion performance for angles between 15° and 90° over various exposure and velocities. Erosion maps were constructed, showing the variation of wastage and identifying the performance window of conditions where degradation is minimised. Full article
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16 pages, 2373 KiB  
Article
Effect of Temperature and Surface Roughness on the Tribological Behavior of Electric Motor Greases for Hybrid Bearing Materials
by Daniel Sanchez Garrido, Samuel Leventini and Ashlie Martini
Lubricants 2021, 9(6), 59; https://doi.org/10.3390/lubricants9060059 - 24 May 2021
Cited by 19 | Viewed by 4973
Abstract
Greased bearings in electric motors (EMs) are subject to a wide range of operational requirements and corresponding micro-environments. Consequently, greases must function effectively in these conditions. Here, the tribological performance of four market-available EM greases was characterized by measuring friction and wear of [...] Read more.
Greased bearings in electric motors (EMs) are subject to a wide range of operational requirements and corresponding micro-environments. Consequently, greases must function effectively in these conditions. Here, the tribological performance of four market-available EM greases was characterized by measuring friction and wear of silicon nitride sliding on hardened 52100 steel. The EM greases evaluated had similar viscosity grades but different combinations of polyurea or lithium thickener with mineral or synthetic base oil. Measurements were performed at a range of temperature and surface roughness conditions to capture behavior in multiple lubrication regimes. Results enabled direct comparison of market-available products across different application-relevant metrics, and the analysis methods developed can be used as a baseline for future studies of EM grease performance. Full article
(This article belongs to the Special Issue Grease)
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14 pages, 4774 KiB  
Article
Planar Contact Fretting Test Method Applied to Solid Lubricants
by Henrik Buse, Fabian Schueler and Erika Hodúlová
Lubricants 2021, 9(6), 58; https://doi.org/10.3390/lubricants9060058 - 21 May 2021
Cited by 2 | Viewed by 4393
Abstract
A new method of material and lubricant testing is demonstrated with a planar contact fretting wear tribometer under typical fretting wear conditions. The usual abstraction of contact geometries with an easy-to-align point or line contacts is deliberately dispensed to do justice to the [...] Read more.
A new method of material and lubricant testing is demonstrated with a planar contact fretting wear tribometer under typical fretting wear conditions. The usual abstraction of contact geometries with an easy-to-align point or line contacts is deliberately dispensed to do justice to the frequently flat contacts of machine elements (shaft-hub connection, bearing seats, etc.). For the study, a new method of targeted observation of the contact surfaces during the test is used, which allows a time-lapse animation of the fretting wear progress of solid lubricant mixtures. Thus, the formation of possible transfer film build-up and the type of wear mechanism occurring can be visualized. This technique represents, in conjunction with additional analytical methods such as microscopy and SEM/EDX, a powerful tool to provide a better insight into the mechanisms of solid lubricant action under fretting conditions. To demonstrate the potential of this approach, a time to damage study is performed on commercial and self-prepared pastes from solid lubricants and white oil, where calcium hydroxide is a commonly employed solid lubricant for the avoidance of fretting wear is compared to other materials. Full article
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