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On The Analyse of High Productive Reaming Technology
Gashkova, Irina ; Slaný, Martin (oponent) ; Píška, Miroslav (vedoucí práce)
This master thesis deals with the analysis of high productive reaming technology. Reaming tests were carried out at different cutting parameters (vc=40, 60, 80, 100 m/min; f=0.2, 0.4, 0.6, 0.8 mm) on austenitic stainless steel DIN 1.4404, using cermet reamer head MT3. Individual reaming operations were compared with respect to the values of estimating parameters such as thrust force, torque moment, surface roughness and type of chip formation. The average values and standard deviations of cutting parameters were calculated. The relations between analysed variables and cutting data were revealed. Diagrams of these relations were constructed as well as the equations were quantified. Results show that reaming operations at lower cutting speed (40 m/min) and low feed per revolution (0.2 mm) give a better quality of surface roughness (Ra=0.37µm) and more compressed chip. Also the results show that with the increasing of feed thrust force and torque moment are increasing but with the increasing of cutting speed thrust force and torque moment are reduced.
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On The Analyse of High Productive Reaming Technology
Gashkova, Irina ; Slaný, Martin (oponent) ; Píška, Miroslav (vedoucí práce)
This master thesis deals with the analysis of high productive reaming technology. Reaming tests were carried out at different cutting parameters (vc=40, 60, 80, 100 m/min; f=0.2, 0.4, 0.6, 0.8 mm) on austenitic stainless steel DIN 1.4404, using cermet reamer head MT3. Individual reaming operations were compared with respect to the values of estimating parameters such as thrust force, torque moment, surface roughness and type of chip formation. The average values and standard deviations of cutting parameters were calculated. The relations between analysed variables and cutting data were revealed. Diagrams of these relations were constructed as well as the equations were quantified. Results show that reaming operations at lower cutting speed (40 m/min) and low feed per revolution (0.2 mm) give a better quality of surface roughness (Ra=0.37µm) and more compressed chip. Also the results show that with the increasing of feed thrust force and torque moment are increasing but with the increasing of cutting speed thrust force and torque moment are reduced.
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