Dynamic friction polishing of single crystal diamond
The dynamic friction polishing(DFP)method has received extensive attention due to its significantly high removal rate comparing with other single crystal diamond polishing methods.In this study,three parameters(polishing load,polishing time,and polishing plate linear velocity)and three clamping types(bonded,inlay,and caliper type)were studied on the influence on the samples'surface roughness(Ra)improvement and the mass loss.The results showed that the increase of the mass loss and the reduction of roughness occurred with increasing the polishing load,the polishing time,and the polishing plate linear velocity,respectively.Whilst,the X-ray diffraction intensity of(400)crystalline surface of each polished sample was enhanced.Among the three clamping types,the bonded clamping type possessed the fastest removal rates,up to 25.2 nm/h.A polishing evaluation parameter,K,was defined as K=△Ra/△m,i.e.,representing the improvement in surface roughness obtained per unit mass loss.According to variation of the parameter K,the DFP procedure could be divided into two stages,"the roughness improvement domination stage"and"the mass loss domination stage",with the former having higher K values than the latter.K values increased monotonically with the increase of the polishing plate linear velocity,whilst they were influenced complicatedly by the polishing load and the polishing time.
single crystal diamonddynamic friction polishing(DFP)roughnessmass lossclamping type
万方数据
维普
