Investigation of the Applicability of Y2O3–ZrO2 Spherical Nanoparticles as Tribological Lubricant Additives

Szabó, Ádám István; Tóth, Álmos Dávid; Leskó, Máté; Hargitai, Hajnalka

doi:10.3390/lubricants10070152

Cited by 11 publications

(4 citation statements)

References 26 publications

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“…Due to the high cost of Y2O3, the authors replaced part of it with zirconium dioxide. The synergistic effect between Y2O3 and ZrO2 was demonstrated when, together, the two oxide ceramic mixtures also resulted in a 90% reduction in wear [43]. Based on the results so far, it is worthwhile to continue researching Y2O3 nanoparticles for lubricating oil formulation, because they promise a very strong wear-reducing effect.…”

Section: Methodsmentioning

confidence: 88%

Tribological Investigation of the Effect of Nanosized Transition Metal Oxides on a Base Oil Containing Overbased Calcium Sulfonate

2023

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In this study, copper(II) oxide, titanium dioxide and yttrium(III) oxide nanoparticles were added to Group III-type base oil formulated with overbased calcium sulfonate. The nanosized oxides were treated with ethyl oleate surface modification. The tribological properties of the homogenized oil samples were tested on a linear oscillating tribometer. Friction was continuously monitored during the tribological tests. A surface analysis was performed on the worn samples: the amount of wear was determined using a digital optical and confocal microscope. The type of wear was examined with a scanning electron microscope, while the additives adhered to the surface were examined with energy-dispersive X-ray spectroscopy. From the results of the measurements, it can be concluded that the surface-modified nanoparticles worked well with the overbased calcium sulfonate and significantly reduced both wear and friction. In the present tribology system, the optimal concentration of all three oxide ceramic nanoadditives is 0.4 wt%. By using oxide nanoparticles, friction can be reduced by up to 15% and the wear volume by up to 77%. Overbased calcium sulfonate and oxide ceramic nanoparticles together form a lower friction anti-wear boundary layer on the worn surfaces. The results of the tests represent another step toward the applicability of these nanoparticles in commercial engine lubricants. It is advisable to further investigate the possibility of formulating nanoparticles into the oil.

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Section: Methodsmentioning

confidence: 88%

Tribological Investigation of the Effect of Nanosized Transition Metal Oxides on a Base Oil Containing Overbased Calcium Sulfonate

2023

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“…An important area in manufacturing is the production of bores with good quality which are used in the internal combustion engine manufacturing for example. There is ongoing research to improve the functionality of machined surfaces by different methods, such as the use of special environmentally friendly additives in the lubricant between the contacting surfaces [1]; or the application of bio lubricants which improved the lubricating potentials by reducing the Coefficient of friction and wear rate [2]. However, the functional properties are still depending on the applied finishing procedure.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the effect of machining parameters on the surface roughness in bore honing

Sztankovics

2023

Eng. rev. (Online)

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Honing is a wide-spread applied machining procedure in finish manufacturing of high precision bores (for example surfaces in internal combustion engines). Machining procedures can be analysed from the point of view of the energy efficiency, productivity, surface quality, etc. In this paper the achievable surface quality after the honing process is studied on sleeves with EN-GJL-250 lamellar cast iron alloy material. The cutting experiments were planned according to the 23 full factorial design of experiments method. Two levels of the analysed factors were chosen in this study. The pressure on the honing stone, the feed of the tool and the average grain size are changed, which resulted in 8 experimental setups. After the roughness measurement and profile evaluation, the main effects are analysed of these 3 parameters. Equations were determined according to the principle of the design of experiment method. The effect of the studied machining parameters is analysed by the application of these equations. The findings in this paper make it possible to explain some phenomenon in the honing process and allow the planning of future experiments in this topic. It was found that lower pressure, higher feed, and finer grains are favourable to achieve low roughness values.

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“…This is caused by the fact that machine-induced anomalies on the surface greatly influences fatigue, corrosion, stress-corrosion, wear resistance et cetera [1]. There are ongoing researches to improve the functionality of machined surfaces by different methods, such as the use of special environmentally friendly additives in the lubricant between the contacting surfaces [2]. Though specific functionality-related properties can be effectively characterized and correlated with the surface texture parameters in practical production [3].…”

Section: Introductionmentioning

confidence: 99%

Study on the roughness parameters describing surface functionality in bore honing

Sztankovics

2023

MDT

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In the examination of the finishing procedures, it is also necessary to examine the parameters characterizing the functionality in addition to the numerical values of the surface roughness. This allows us to get a more complex picture of the behaviour of the machined surface during the working conditions. In this paper, the parameters of average roughness, surface skewness, and surface kurtosis are examined for holes machined with honing. During the experiments, the full factorial experimental design is used. Thus, the cutting experiments were performed with a total of 8 settings for 2 values of three selected parameters (average grain size, pressure, feed rate). The effect of the investigated technological parameters on the analysed roughness parameters was given in the study.

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Investigation of the Applicability of Y2O3–ZrO2 Spherical Nanoparticles as Tribological Lubricant Additives

Cited by 11 publications

References 26 publications

Tribological Investigation of the Effect of Nanosized Transition Metal Oxides on a Base Oil Containing Overbased Calcium Sulfonate

Tribological Investigation of the Effect of Nanosized Transition Metal Oxides on a Base Oil Containing Overbased Calcium Sulfonate

Analysis of the effect of machining parameters on the surface roughness in bore honing

Study on the roughness parameters describing surface functionality in bore honing

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