Micro/nano carbon spheres as liquid lubricant additive: Achievements and prospects

Friction and wear are the primary attributes of energy loss and failure of machine parts in mechanical systems. There is a great demand to develop novel and effective lubricants to reduce friction and wear in especial in new high technologies industries. As lubricant additives, carbon nanomaterials such as graphene, fullerene and micro/nano carbon spheres (MNCS) can significantly improve the friction reduction and wear resistance capacities of lubricants. MNCS has excellent lubricity due to its unique thermal, mechanical and chemical properties and rolling friction between two friction surfaces caused by the spherical structures. However, there is still a lack of a detailed review that outlines these research results. In this review, the category and lubrication mechanism of the widely used nanolubricant additives are summarized, and then recent advances in the applications of MNCS as oil-based and water-based lubricant additives, and porous MNCS as new lubricant additives are comprehensively introduced from the aspects of experimental content and lubrication performances. Finally, the review presents a brief summary and some future prospects of MNCS in the lubrication field.(c) 2022 Elsevier B.V. All rights reserved.

Automated summary

This review summarizes the application of carbon nanomaterials as lubricant additives and their important role in reducing friction and wear. In particular, the research progress of MNCS as lubricant additives is detailed, and the potential applications in the lubrication field are discussed for the future.