@ARTICLE{Ondrušová_Darina_Targeted_2021, author={Ondrušová, Darina and Labaj, Ivan and Pajtášová, Mariana and Vršková, Juliana and Božeková, Slavomíra and Feriancová, Andrea and Skalková, Petra}, volume={69}, number={2}, journal={Bulletin of the Polish Academy of Sciences Technical Sciences}, pages={e136721}, howpublished={online}, year={2021}, abstract={The targeted modification of the material composition is a common procedure used to improve the parameters of the final products. This paper deals with the targeted modification of polymer systems composition using two various types of alternative fillers. The first type of alternative filler (SVD) has been obtained from energetics where it arises as a by-product of flue gas desulfurization. The second alternative filler used (KAL) is based on waste from glass production. The elastomeric systems designed for the production of car tires and solid wheels for transport systems were used in the role of modified polymer systems. Alternative fillers (SVD, KAL) have been applied as a substitution of commonly used fillers (carbon black, silica). The filler – elastomeric matrix interaction, rheology, cure characteristics, as well as hardness and rebound resilience of vulcanizates, which are important parameters for their industrial application, have been studied in the new prepared polymeric systems. The main output of the work is a new formulation of an elastomeric system for industrial applications with high rebound resilience and low rolling resistance, which is the subject of the international patent [1]. The modification of composition using raw material substitution can also bring significant environmental and economic effects.}, type={Article}, title={Targeted modification of the composition of polymer systems for industrial applications}, URL={http://ochroma.man.poznan.pl/Content/119405/PDF/03_01991_Bpast.No.69(2)_26.04.21_K_A_SS_OK.pdf}, doi={10.24425/bpasts.2021.136721}, keywords={polymer elastomeric system, industrial application, rheology, cure characteristics, hardness, rebound resilience}, }