Abstract
The generation of a fine mist of cutting fluid during conventional wet machining and the associated environmental and operator health concerns make environmentally benign machining and manufacturing a major research thrust both in the scientific and manufacturing communities. In this context, high-speed machining in combination with environmentally benign methods makes diamond-coated tooling a unique candidate for dry machining. Diamond coating research in the past few decades has resulted in new products, one of them being diamond-coated carbide tooling. Diamond in polycrystalline diamond (PCD), chemical vapor deposited (CVD) thin-film (polished and unpolished) and thick-film forms offers unique advantages for dry machining. This paper presents the correlation between diamond tool morphology, machining parameters, nonferrous workpiece properties, and particulate emission in dry machining. These findings provide an important benchmark to gauge the true benefit of diamond tools for dry machining.
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