Abstract:

Especially companies in the modeling industry need materials with high strength and easy processing characteristics. These materials are aimed at achieving the desired quality, minimum processing time and low-cost products through the manufacturing operations. Therefore, the effects of the cutting strength components of the cutting parameters in the turning of the recently produced Sleipner cold work cluster steel have been experimentally studied on the core cutting strength, surface smoothness, and the formation of slurry. Turning experiments have been used with CVD method covered sementite carbon cutting equipment. Cutting parameters in experiments were determined in the form of five different cutting speeds, three different advancement quantities and a fixed cutting depth. As a result, the cutting force is more affected by the cutting speed and the amount of progress of the cutting force based on the components than the passive force and the progress force. The best cutting parameters for the basic cutting force are the cutting speed of 100 m/min and the progress amount of 0.1 mm/dev. The lowest surface smoothness among the processed surfaces was achieved at a cutting speed of 150 m/min and a progress rate of 0.1. It has been found that in the cutting teams used at low cutting speeds in the tormenting experiments, unstable accumulation patch (BUE) has been formed. However, the cutting sets used in high cutting speeds and the amount of progress have been shown to be overwhelmed. The desired sipral-type shell formation was observed at 150 m/min cutting speed and at 0.1 mm/dev progress.

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