Inspired by the efficient fluid transport characteristics of leaf veins in nature, this study proposed an innovative biomimetic leaf-microgrooves to achieve lubrication reinforce and storage debris performances, thereby improving the anti-friction and wear-resistant properties of the friction pairs.
This study introduces an organic molecular coating, 1-undecanethiol, that anchors strongly to the surface of Li 6 PS 5 Cl and functions as an adsorbed lubrication layer, thus reducing interparticle friction, facilitating
This paper analyzed the lubrication and energy dissipation mechanism of pump-turbine thrust bearing during load-rejection based on the thermo-hydrodynamic model.
This study introduces an organic molecular coating, 1-undecanethiol, that anchors strongly to the surface of Li 6 PS 5 Cl and functions as an adsorbed lubrication layer, thus reducing interparticle friction, facilitating particle rearrangement and densification.
This is the principle of hydrodynamic lubrication, a mechanism that is essential to the efficient functioning of the self-acting journal and thrust bearings widely used in modem industry.
In brief, it is necessary to gain an in-depth understanding of the physical mechanisms and bionic principles of hydration lubrication, and guide the artificial preparation of novel bio-inspired hydration lubrication systems for a
Energy storage technology has always been an important lubricant for power systems, especially after wind power photovoltaics have been connected to the grid on a large scale.
Sliding between clean solid surfaces is generally characterized by a high coefficient of friction and severe wear due to the specific properties of the surfaces, such as low hardness, high surface energy, reactivity, and mutual solubility.
This review thoroughly explores energy storage in GFSCs, examining energy storage mechanisms, advanced GF fabrication methodologies and process parameter modulation, and
This study demonstrates the idea of utilizing MOF and water-assisted lubrication mechanisms. It provides new insights into MOF applications in tribology and highlights interdisciplinary contributions of mechanical engineering and chemistry.
In this work, recent efforts into understanding the molecular structuring and physical properties of ILs in proximity to solid surfaces, as well as applications in lubrication and energy storage, were presented.
