Search Results

1 - 3 of 3 items :

  • "Process Performance" x
  • Materials Sciences x
Clear All
Assessment of Selected Technical Parameters of Soya Seeds Oil Pressing Process

Abstract

The objective of the paper was to determine the impact of the value of the oil pressing pressure with the cold pressing method in a screw press on the pressing course and performance. Varied values of pressure were obtained through the use of three replaceable attachments of the pressing unit with a varied diameter of the outlet conduit (ф1=2 mm, ф2=4 mm and ф3=6 mm). The soya oil pressing process performance was determined in relation to the applied attachment and the soya cultivar. Seeds of 7 Polish non-genetically modified soya cultivars constituted research material. It was proved that both variable pressure values and the used soya cultivars have impact on the pressing performance. Based on the analysis of the obtained research results it was proved that varied technical parameters and soya cultivars influence both the process performance and the remaining parameters and pressing conditions.

Open access
The effect of changes in depth of cut and cutting speed of CNC toolpaths on turning process performance

Abstract

In this article, a novel approach to computer optimization of CNC toolpaths by adjustment of cutting speed vcand depth of cut apis presented. Available software works by the principle of adjusting feed rate on the basis of calculations and numerical simulation of the machining process. The authors wish to expand upon this approach by proposing toolpath optimization by altering two other basic process parameters. Intricacies and problems related totheadjustment of apand vcwere explained in the introductory part. Simulation of different variant of the same turning process with different parameter values were conducted to evaluate the effect of changes in depth of cut and cutting speed on process performance. Obtained results were investigated on the account of cutting force and tool life. The authors have found that depth of cut substantially affects cutting force, while the effect of cutting speed on it is minimal. An increase in both depth of cut and cutting speed affects tool life negatively, although the impact of cutting speed is much more severe. An increase in depth of cut allows for a more significant reduction of machining time, while affecting tool life less negatively. On the other hand, the adjustment of cutting speed helpsto reduce machining time without increasing cutting force component values and spindle load.

Open access
Conformity of finished forming sieves for paper industry

, V., 2011. Improved planning in the automotive industry - Advanced product quality planning , Festival of Quality - FQ 2011, Kragujevac, Serbia, A84-A90. Radlovački, V., 2007. The general model of monitoring and evaluation of the quality management system effectivity , Faculty of technical Sciences, Novi Sad, Serbia. (in: Serbian) Simeunović, B.P., 2015. Development of process performance measurement model , Doctoral Dissertation, University of Belgrade, Faculty of Organizational Sciences, Belgrade, Serbia. (in: Serbian) Smook, G.A., 2003

Open access