scholarly journals Tribological Performance of Random Sinter Pores vs. Deterministic Laser Surface Textures: An Experimental and Machine Learning Approach

2021 ◽  
Author(s):  
Guido Boidi ◽  
Philipp G. Grützmacher ◽  
Markus Varga ◽  
Márcio Rodrigues da Silva ◽  
Carsten Gachot ◽  
...  
Keyword(s):  
Machine Learning ◽  
Surface Texturing ◽  
Tribological Performance ◽  
Laser Surface ◽  
Laser Surface Texturing ◽  
Learning Approach ◽  
Machine Learning Approach ◽  
Surface Irregularities ◽  
Sintered Materials ◽  
Surface Pores

This work critically scrutinizes and compares the tribological performance of randomly distributed surface pores in sintered materials and precisely tailored laser textures produced by different laser surface texturing techniques. The pore distributions and dimensions were modified by changing the sintering parameters, while the topological features of the laser textures were varied by changing the laser sources and structuring parameters. Ball-on-disc tribological experiments were carried out under lubricated combined sliding-rolling conditions. Film thickness was measured in-situ through a specific interferometry technique developed for the study of rough surfaces. Furthermore, a machine learning approach based on the radial basis function method was proposed to predict the frictional behavior of contact interfaces with surface irregularities. The main results show that both sintered and laser textured materials can reduce friction compared to the untextured material under certain operating conditions. Moreover, the machine learning model was shown to predict results with satisfactory accuracy. It was also found that the performance of sintered materials could lead to similar improvements as achieved by textured surfaces, even if surface pores are randomly distributed and not precisely controlled.

Research on Tribological Performance of Cylinder Liner by Micro-Laser Surface Texturing

2011 ◽  
Vol 4 (4) ◽  
pp. 1318-1324 ◽  
Author(s):  
Yin Bifeng ◽  
Li Xiaodong ◽  
Fu Yonghong ◽  
Wang Yun
Keyword(s):  
Surface Texturing ◽  
Cylinder Liner ◽  
Tribological Performance ◽  
Laser Surface ◽  
Laser Surface Texturing

scholarly journals Tribological Performance of Diamond-like Nanocomposite Coatings: Influence of Environments and Laser Surface Texturing

Coatings ◽  
2021 ◽  
Vol 11 (10) ◽  
pp. 1203
Author(s):  
Sergei M. Pimenov ◽  
Evgeny V. Zavedeev ◽  
Olga S. Zilova ◽  
Alexander P. Lepekhov ◽  
Beat Jaeggi ◽  
...  
Keyword(s):  
Femtosecond Laser ◽  
Tribological Properties ◽  
Room Temperature ◽  
Elevated Temperatures ◽  
Surface Texturing ◽  
Tribological Performance ◽  
Laser Surface ◽  
Laser Surface Texturing ◽  
Oil Lubrication ◽  
Humid Air

Diamond-like nanocomposite (DLN) films (a-C:H:Si:O films) are characterized by their unique structure and remarkable tribological properties to be pronounced under various environmental and surface modification conditions. In this paper, we investigated the effects of environments (humid air, water and oil lubrication, elevated temperatures) and laser surface texturing on tribological performance of DLN coatings. Femtosecond laser (wavelength 515 nm) was used for surface texturing. Comparative tests of DLN films sliding against different counterbodies (steel, Si3N4) in humid air and water demonstrated the low-friction and low-wear performance under water, in the absence of chemical interaction of water with the counterbody surface. The wear rates of the film and Si3N4 ball in water, 7.5 × 10−9 and 2.6 × 10−9 mm3/(Nm), were found to be considerably lower than the corresponding values 6.8 × 10−7 and 3.8 × 10−8 mm3/(Nm) in humid air, in spite of higher friction in water-lubricated sliding. Laser surface texturing of DLN films was performed to fabricate microcrater arrays, followed by tribological testing under oil lubrication at different temperatures, from 23 to 100 °C. The lubricated friction performance of laser-textured films was improved at both the room temperature and elevated temperatures. The friction coefficient was reduced from 0.1 (original film) to 0.083 for laser-textured film at room temperature, and then to 0.068 at 100 °C. The nano-/microfriction behavior of laser-structured surface characterized by lower friction forces than the original surface was demonstrated using friction force microscopy in ambient air. The obtained results demonstrate excellent tribological properties of DLN coatings in various environments, which can be further improved by femtosecond-laser-surface texturing.

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