@article{oai:nagoya.repo.nii.ac.jp:02002097,
 author = {Hashizume, Naoya and Murashima, Motoyuki and Umehara, Noritsugu and Tokoroyama, Takayuki and Lee, Woo-Young},
 journal = {Tribology International},
 month = {Oct},
 note = {We clarify the relationships between tribofilm thickness, chemical composition, and friction coefficient by combining in situ and ex situ analyses. An in situ reflectance observation is conducted for MoDTC-derived tribofilm on a ta-C coating during friction tests. The results show that the thicker the tribofilm is, the lower the friction coefficient. In addition, the refractive index increases as friction decreases. XPS analysis shows that the topmost surface of the thick tribofilm contains a higher MoS2 concentration than the deep position. Therefore, the generated MoS2-rich tribofilm is considered to reduce friction. In addition, as the MoS2 tribofilm wears out, friction increases. In conclusion, we have developed a MoDTC-derived tribofilm formation model using a new method of in situ optical measurement.},
 title = {In situ observation of the formation of MoDTC-derived tribofilm on a ta-C coating using reflectance spectroscopy and its effects on friction},
 volume = {162},
 year = {2021}
}