Abstract
MQL system is introduced in this paper to verify the influences on the tool wear and cutting force that brought by MQL (minimal quantity lubrication) for high-temperature alloy. The system utilized various pressures that are caused by the compressed air flowing through the decrescent areas to absorb the liquid from the reservoir tank, and then the liquid was transported to the nozzle which could spray the liquid on the workpiece for cooling and lubrication. The results shown that MQL had an obvious advantage over dry cutting and traditional cooling methods; it could effectively reduce cutting forces and improve the tool life expectancy as well as processing quality and efficiency. The proposed method also had some other positive characteristics, such as the less dosage of cooling fluid and the environmental-friendly. It also can be applied to the processing of difficult-to-cut materials with a wide range of prospects.
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