Affiliation:
1. Shanghai Jiao Tong University
Abstract
Abstract
General reductions in lubricant viscosities and increased loads in many machine components mean that the role of tribofilms has become increasingly important to provide adequate surface protection against scuffing. However, the relationship between the scuffing process and the growth and removal of tribofilm has not been systematically demonstrated. In this study, a multidisciplinary coupling model, which includes hydrodynamic lubrication, asperity contact, thermal effect, tribochemistry reaction, friction, and surface wear, was developed to capture the initiation of surface scuffing. Simulations and experiments for a piston ring and cylinder liner contact were conducted following a step-load sequence under different temperature conditions. The results show that high temperature and extreme load could induce the lubricant film collapse, and then the tribofilm breakdown initiates due to the substantially increased removal process. The failures of both lubricant film and tribofilm progress instantaneously in a coupling way, which finally leads to severe scuffing.
Publisher
Research Square Platform LLC
Reference72 articles.
1. Bošanský, M., Tóth, F., Gulan, L., Rusnák, J., Furstenzeller, A.: Scuffing Resistance of 16MnCr5 HCR TiAlCN-Coated Gears. pp. 445–452. Springer International Publishing, Place Springer International Publishing (2020)
2. Scuffing detection of TU3 cam–follower contacts by electrostatic charge condition monitoring;Booth JE;Tribology International,2010
3. Scuffing resistance of coated piston skirts run against cylinder bores;Wang Y;Wear,2005
4. A deterministic contact evolution and scuffing failure analysis considering lubrication deterioration due to temperature rise under heavy loads;Lyu B;Engineering Failure Analysis,2021
5. State-of-the-art of extreme pressure lubrication realized with the high thermal diffusivity of liquid metal;Li H;ACS applied materials & interfaces,2017