The article presents a computer model developed on the basis of mathematical expressions aimed at determining the vulcanization time in the control of the vulcanization process during the production of complex multicomponent elastomer composite products. The coefficients of the specified differential equation are calculated using the Runge-Kutta method, and the model itself is implemented as an integrated software product that enables its application under real production conditions. In developing the model, high accuracy of mathematical calculations and the availability of a user-friendly software interface were defined as the main requirements. At the same time, the study provides a detailed analysis of the main parameters of the vulcanization process, their influence on the process behavior, and their compliance with technological requirements, and, using the developed computer model, identifies possibilities for process optimization, which contributes to improving vulcanization efficiency and ensuring rational use of resources, while creating conditions for the introduction of modern technological solutions in the automation and control of production processes