In this study, the effect of different physical parameters on the magnetic properties of a Borophyne superlattice is investigated by means of Monte Carlo simulations. The structure consists of alternating A, B, and C layers, each with a different spin (A = 1, B = 5/2, and C = 2). We plot hysteresis loops for different parameter sets, analyze the total and partial magnetization changes as a function of temperature, and exchange coupling parameters. Our investigations reveal intriguing properties of the magnetic structure that are useful for a better understanding of complex magnetic phenomena and for the design of novel magnetic materials.