Nano-scale coating wear measurement by introducing Raman-sensing underlayer  被引量：1

作　　者：Nan Xu Chun Wang Liuquan Yang Eric Kumi Barimah Gin Jose Anne Neville Ardian Morina 

机构地区：[1]Institute of Functional Surfaces,School of Mechanical Engineering,University of Leeds,Leeds,LS29JT,United Kingdom [2]School of Chemical and Process Engineering,University of Leeds,Leeds,LS29JT,United Kingdom

出　　处：《Journal of Materials Science & Technology》2022年第1期285-294,共10页材料科学技术（英文版）

基　　金：support by the Engineering and Physical Sciences Research Council(EPSRC,Grants No.EP/S030476/1 and EP/R02524X/1)in the UK。

摘　　要：For gaining fundamental insight into coating wear mechanisms and increasing operational efficiency and automation degree of equipment in important application fields of coating techniques,it is of great importance to developing novel wear measurement techniques enabling nanoscale studies of coating wear in the running process,but this remains a significant challenge.Here,a facile strategy is reported to achieve accurate coating thickness quantification at nanoscale level,which is based on a bilayer structure:a top target layer of a-C:H(hydrogenated amorphous carbon)film is considered as a light attenuating and anti-wear layer while underlayer of silicon serves as Raman-sensing layer.Through constructing the relationship between the thickness of a-C:H and Raman intensity of attenuated silicon signal,the coating thickness quantification method is established and successfully applied to quantify coating wear in the friction process.This approach can effectively avoid remarkable errors caused by tribo-induced effects in the interface regions,demonstrating its advantage in error tolerance.Details about these tribo-induced effects are also elucidated by a combination of Raman spectroscopy,optical profilometer,EELS,and TEM.In particular,the proposed approach enables the possibility of measuring coating wear with oil film on top,which breaks an important limitation of existed wear measurement methods,i.e.,incapable of applying in oil-lubricated conditions.This approach can be used to quantify the wear condition of diverse target coatings and has the potential of online wear monitoring when combining a compact laser excitation and detection system.

关 键 词：COATING Wear measurement RAMAN Layered structure NANOSCALE 

分 类 号：TG174.4[金属学及工艺—金属表面处理]