Linear grinding of microbores using diamond-adhered wire

Use of microbores of size φ = 100 µm or less has become increasingly common for engineering components especially for microfluidics, optical communications and precision engineering applications. These microbores demand nanometric surface finishes to achieve lower insertion loss (<25 dB) for optical applications, ripple-free flow in microfluids and enhanced assembly accuracies in precision engineering. To meet such stringent requirements, microbores are currently produced using microabrasive slurry polishing. Since, this method introduces severe clogging of abrasive particles and requires frequent cleaning, a linear diamond wire grinding method was devised to process microbores up to φ = 80 µm. Prior to microbore polishing, the microbores were formed through a sintering process, and the interacting surfaces were treated as convex–concave which determines the conditions of the contact mechanics. This article explains both theoretical and experimental components of linear diamond wire grinding and outlines ...