Publication: Improving the thermophysical properties of hybrid nanocellulose-copper (II) oxide (CNC-CuO) as a lubricant additives: A novel nanolubricant for tribology application
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Date
2023
Authors
Kamal Kamarulzaman M.
Hisham S.
Kadirgama K.
Ramasamy D.
Samykano M.
Saidur R.
Yusaf T.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd
Abstract
The primary objective of the present analysis is to investigate the thermophysical properties of hybrid nanocellulose and copper (II) oxide nanoparticles added to engine oil as a lubricant for piston ring-cylinder liner application. Kinematic viscosity, viscosity index (VI) and dynamic viscosity have been performed for measurement of properties at varying temperatures (ranging from 30 �C to 90 �C) and different concentrations (ranging from 0.1 % to 0.9 % volume concentration). Thermal characteristics have been measured using similar temperatures and concentrations to determine thermal conductivity and specific heat capacity. In the results, as the concentration of the CNC-CuO nanoparticle increases, the VI also increases. This proves the combination of CNC-CuO particles with engine oil improves the lubricity of the base oil concerning its viscosity by 44.3 %-47.12 %. The lowest and highest improvements in the dynamic viscosity were 1.34 % and 74.81 %. The highest increment of thermal conductivity ratio for the selected nanolubricant was 1.80566 % in the solid concentration of 0.1 % at 90 �C. The specific heat capacity of nanolubricant tends to reduce slightly with an increase in temperature. Overall, the addition of CNC-CuO nanoparticle in the engine improved thermophysical properties behaviour's performance at 0.5 % concentration. The results can benefit the heat transfer application, especially tribological. � 2022 Elsevier Ltd
Description
Keywords
Copper (II) oxide , Nanocellulose , Nanolubricant , Thermophysical properties , Additives , Copper oxides , Heat transfer , Lubricating oils , Nanocellulose , Specific heat , Thermal conductivity , Tribology , Viscosity , Copper (II) oxide , CuO nanoparticles , Dynamic viscosities , Engine oil , Lubricant additives , Nano-cellulose , Nanolubricants , Primary objective , Specific heat capacity , Viscosity index , Nanoparticles