MATHEMATICAL MODELLING OF THE FIRE-RESISTANT PROPERTIES OF MODIFIED POLYPROPYLENE YARN DEPENDING ON ITS COMPOSITION FOR CARPET

Abstract

This article presents the results of mathematical modeling aimed at studying the fire-resistant properties of modified polypropylene yarn used in the production of carpet products. The quantitative ratio of various additives in the yarn composition (flame retardants, stabilizers, fillers, etc.) and their effect on the fire resistance of the material are comprehensively examined. Based on the experimental data obtained during the study, a multifactorial regression model was constructed. This model allows predicting the fire-resistant properties of the thread in advance and achieving the necessary quality indicators by optimizing its composition. Using a mathematical model, methods are proposed for the effective management of production processes and the creation of new composite materials. The proposed approach contributes to improving the quality of polypropylene-based yarns, ensuring their compliance with fire safety requirements, and expanding the range of innovative materials in modern carpet production.