FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4319315511> ?p ?o ?g. }

• W4319315511 endingPage "65" @default.
• W4319315511 startingPage "65" @default.
• W4319315511 abstract "Recently, environmentally friendly and sustainable materials are being developed, searching for biocompatible and efficient materials which could be incorporated into diverse industries and fields. Natural esters are investigated and have emerged as eco-friendly high-performance alternatives to mineral fluids. This research shows the evaluations on thermal transport and tribological properties of halloysite nanotubular structures (HNS) reinforcing natural ester lubricant at various filler fractions (0.01, 0.05, and 0.10 wt.%). Nanolubricant tribotestings were evaluated under two configurations, block-on-ring, and 4-balls, to obtain the coefficient of friction (COF) and wear scar diameter (WSD), respectively. Results indicated improvements, even at merely 0.01 wt.% HNS concentration, where COF and WSD were reduced by ~66% and 8%, respectively, when compared to pure natural ester. The maximum significant improvement was observed for the 0.05 wt.% concentration, which resulted in a reduction of 87% in COF and 37% in WSD. Thermal conductivity was analyzed under a temperature scan from room temperature up to 70 °C (343 K). Results indicate that thermal conductivity is improved as the HNS concentration and testing temperature are increased. Results revealed improvements for the nanolubricants in the range of 8–16% at 50 °C (323 K) and reached a maximum of 30% at 70 °C (343 K). Therefore, this research suggests that natural ester/HNS lubricants might be used in industrial applications as green lubricants." @default.
• W4319315511 created "2023-02-08" @default.
• W4319315511 creator A5011543009 @default.
• W4319315511 creator A5014921982 @default.
• W4319315511 creator A5026408528 @default.
• W4319315511 creator A5032588970 @default.
• W4319315511 date "2023-02-05" @default.
• W4319315511 modified "2023-09-30" @default.
• W4319315511 title "Halloysite Reinforced Natural Esters for Energy Applications" @default.
• W4319315511 cites W1123322564 @default.
• W4319315511 cites W1976216539 @default.
• W4319315511 cites W1980120482 @default.
• W4319315511 cites W1984188432 @default.
• W4319315511 cites W1992895014 @default.
• W4319315511 cites W1993339572 @default.
• W4319315511 cites W1997997125 @default.
• W4319315511 cites W1998370196 @default.
• W4319315511 cites W2009838041 @default.
• W4319315511 cites W2024995709 @default.
• W4319315511 cites W2062377822 @default.
• W4319315511 cites W2073138260 @default.
• W4319315511 cites W2086294199 @default.
• W4319315511 cites W2093949536 @default.
• W4319315511 cites W2096997687 @default.
• W4319315511 cites W2098408512 @default.
• W4319315511 cites W2132656327 @default.
• W4319315511 cites W2330311477 @default.
• W4319315511 cites W2331520489 @default.
• W4319315511 cites W2502207991 @default.
• W4319315511 cites W2610936003 @default.
• W4319315511 cites W2755533260 @default.
• W4319315511 cites W2767567283 @default.
• W4319315511 cites W2782808483 @default.
• W4319315511 cites W2890745569 @default.
• W4319315511 cites W2900398190 @default.
• W4319315511 cites W2909534106 @default.
• W4319315511 cites W2913732344 @default.
• W4319315511 cites W2917862870 @default.
• W4319315511 cites W2941130135 @default.
• W4319315511 cites W2941191766 @default.
• W4319315511 cites W2948791109 @default.
• W4319315511 cites W2962848625 @default.
• W4319315511 cites W2963629179 @default.
• W4319315511 cites W2967607884 @default.
• W4319315511 cites W2969374467 @default.
• W4319315511 cites W2969544012 @default.
• W4319315511 cites W3010421970 @default.
• W4319315511 cites W3033051804 @default.
• W4319315511 cites W3034331488 @default.
• W4319315511 cites W3037251296 @default.
• W4319315511 cites W3048828603 @default.
• W4319315511 cites W3085172399 @default.
• W4319315511 cites W3091929244 @default.
• W4319315511 cites W3094110538 @default.
• W4319315511 cites W3120091234 @default.
• W4319315511 cites W3133391829 @default.
• W4319315511 cites W3135233488 @default.
• W4319315511 cites W3158270815 @default.
• W4319315511 cites W3159931071 @default.
• W4319315511 cites W3167362038 @default.
• W4319315511 cites W3188256483 @default.
• W4319315511 cites W3200000494 @default.
• W4319315511 cites W3204796715 @default.
• W4319315511 cites W3208027700 @default.
• W4319315511 cites W3216367281 @default.
• W4319315511 cites W369188865 @default.
• W4319315511 cites W4200551049 @default.
• W4319315511 cites W4205223348 @default.
• W4319315511 cites W4206930148 @default.
• W4319315511 cites W4210451542 @default.
• W4319315511 cites W4210501308 @default.
• W4319315511 cites W4210772897 @default.
• W4319315511 cites W4213010638 @default.
• W4319315511 cites W4220972519 @default.
• W4319315511 cites W4224115704 @default.
• W4319315511 cites W4225412212 @default.
• W4319315511 cites W4229002802 @default.
• W4319315511 cites W4280553963 @default.
• W4319315511 cites W4281958945 @default.
• W4319315511 cites W4282828305 @default.
• W4319315511 cites W4283067308 @default.
• W4319315511 cites W4289687095 @default.
• W4319315511 cites W4290628336 @default.
• W4319315511 cites W4290803843 @default.
• W4319315511 cites W4301395159 @default.
• W4319315511 cites W4308965539 @default.
• W4319315511 cites W4311527169 @default.
• W4319315511 cites W2952222534 @default.
• W4319315511 doi "https://doi.org/10.3390/lubricants11020065" @default.
• W4319315511 hasPublicationYear "2023" @default.
• W4319315511 type Work @default.
• W4319315511 citedByCount "3" @default.
• W4319315511 countsByYear W43193155112023 @default.
• W4319315511 crossrefType "journal-article" @default.
• W4319315511 hasAuthorship W4319315511A5011543009 @default.
• W4319315511 hasAuthorship W4319315511A5014921982 @default.
• W4319315511 hasAuthorship W4319315511A5026408528 @default.
• W4319315511 hasAuthorship W4319315511A5032588970 @default.

• next