Experimental analysis and optimization of the controllable parameters in turning of en aw-2011 alloy; dry machining and alternative cooling techniques (CROSBI ID 275321)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Jozić, Sonja ; Dumanić, Ivana ; Bajić, Dražen
engleski
Experimental analysis and optimization of the controllable parameters in turning of en aw-2011 alloy; dry machining and alternative cooling techniques
The latest trends in machining research show that great efforts are being made to understand the impact of different cooling and lubrication techniques as well as cutting parameters on machining performances. This paper presents the investigation results of different cutting parameters and different cutting environments such as dry machining, minimum quantity lubrication (MQL) and minimum quantity lubrication with compressed cold air (MQL+CCA) on average surface roughness, cutting force and material removal rate. The experiments were designed based on three input parameters and three different cutting environments when turning of EN AW-2011 alloy. Taguchi-based grey relational analysis was used to identify the optimal process parameters by which minimum values of surface roughness, minimum value of cutting force and maximum value of material removal rate will be achieved. The results showed that minimum quantity lubrication in the stream of compressed cold air, in comparison to dry and minimum quantity lubrication machining, gives the best machining performances. Therefore, the use of MQL + CCA method, which reduces the amount of lubricant may represent in the described extent of turning operations an alternative to turning processes most often carried out by wet method that causes considerable costs for purchasing, maintaining and using cutting fluids.
Turning ; Dry Machining ; Minimum Quantity of Lubrication ; Compressed Cold Air Cooling ; Taguchi Design ; Grey Relational Analysis
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Podaci o izdanju
17 (1)
2020.
13-29
objavljeno
0354-2025
2335-0164
10.22190/FUME191024009J