Quantitative analysis of the tribological properties of phosphate glass at the nano- and macro-scales  被引量：3

作　　者：Huimin QI Wen HU Hongtu HE Yafeng ZHANG Chenfei SONG Jiaxin YU 

机构地区：[1]Key Laboratory of Testing Technology for Manufacturing Process in Ministry of Education,State Key Laboratory of Environment-friendly Energy Materials,Southwest University of Science and Technology,Mianyang 621010,China [2]National United Engineering Laboratory for Advanced Bearing Tribology,Henan University of Science and Technology,Luoyang 471023,China

出　　处：《Friction》2021年第5期1138-1149,共12页摩擦（英文版）

基　　金：The authors are grateful for financial support from the National Natural Science Foundation of China(Nos.51975492 and 51575462);the Scientific Research Fund of Sichuan Provincial Education Department,China(18ZA0504);the Research Fund Supported by Sichuan Science and Technology Program(2018JY0245);the Research Foundation of Southwest University of Science and Technology(18zx7162);the Tribology Science Fund of State Key Laboratory of Tribology(SKLTKF19B15);the Project National United Engineering Laboratory for Advanced Bearing Tribology,Henan University of Science and Technology(201910).

摘　　要：Processing(grinding,polishing)of phosphate laser(PL)glass involves material removal at two vastly different(spatial)scales.In this study,the nano‐and macro‐tribological properties of PL glass are investigated by rubbing the glass against a SiO_(2) counter‐surface in both dry and humid conditions.The results indicate that the friction of the PL glass/SiO_(2) pair has opposing trends at the nano‐and macroscales.At the nanoscale,the friction coefficient(COF)in humid air is much higher than in dry air,which is attributed to the capillary effect of the absorbed water‐film at the interface.At the macroscale,on the other hand,the COF in humid air is lower than in dry air,because the water‐related mechanochemical wear makes the worn surface less susceptible to cracking.Material removal for PL glass is better facilitated by humid air than by dry air at both scales,because the stress‐enhanced hydrolysis accelerates the material‐removal process in glass.Moreover,the material‐removal is more sensitive to contact pressure at the macroscale,because stronger mechanical‐interaction occurs during material removal at the macroscale with the multi asperity contact mode.At the macroscale,the material removal is more sensitive to contact pressure in humid air compared to dry air.Because almost all mechanical energy is used to remove material in humid air,and most of the mechanical energy is used to produce cracks in PL glass in dry air.The results of this study can help optimize the multi‐scale surface processing of optical glasses.

关 键 词：phosphate glass FRICTION WEAR water HYDROLYSIS TRIBOCHEMISTRY 

分 类 号：TQ171.112[化学工程—玻璃工业]