FEATURES OF PROCESSING FILLED POLYAMIDE COMPOSITIONS BY INJECTION MOLDING METHOD

Authors

  • С. В. Пристинський «Kostal Ukraine» Ltd
  • Ю. О. Будаш Kyiv National University of Technologies and Design
  • В. І. Ступа Kyiv National University of Technologies and Design
  • І. О. Пустовойт Kyiv National University of Technologies and Design

DOI:

https://doi.org/10.30857/1813-6796.2019.6.7

Keywords:

injection molding, process parameters, impact strength, filled polymer compositions, polyamides

Abstract

Comparative analysis the main parameters of injection molding and the physic-mechanicals properties of polymer compositions based on polyamide 6.6. Samples we had obtained by injection molding method at injection molding machine ENGEL E-MAC 170/75. The process parameters had determined empirically to achieve certain quality criteria. Physics and mechanicals properties had evaluated by Sharpy impact strength. Statistical data processing, construction of graphs and diagrams had done in MS Excel. During the researching, had done a comparative analysis of the main parameters of the injection molding process, physical and mechanical properties, such as impact strength of the samples obtained from the glass-filled polymer composition based on polyamide PA6.6-GFGB30 and the material without glass filler PA6.6. During the experiment and data, analysis had revealed an increase in the impact strength of samples by 43%, cast from polymeric composition material PA6.6-GFGB30 in comparison with PA6.6. At the same time the process parameters such as the temperature, which directly affects the energy resources consumption, did not receive statistically significant changes. Among the features of changes in process parameters, we can note an increase in switching pressure, a decrease in the dosing time, and others. In addition, the speed and linear values of the process have changed. For the first time had performed a detailed comparative analysis the main processing parameters by injection molding and the physic-mechanicals properties of polymer compositions based on polyamide 6.6. The results will allow a professional approach to the selection of polymer compositions and technological parameters the process of their processing by injection molding.

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Published

2020-02-13

Issue

Section

Chemical, Biological & Pharmaceutical Technologies