Our investigation aims to study different interaction models of double folding potential for 6He+12C nuclear system. We analyzed the available experimental elastic scattering angular distributions data for 6He+ 12C nuclear system at energies 5.9, 9.9, 18, 30, 229.8, 249.6 and 493.8 MeV. Data analysis performed within the framework of optical model (OM) potential using the phenomenological Woods–Saxon (WS). We created the real part of the nuclear potential using the double folding approach based upon different interaction models such as: DDM3Y1 Paris, CDM3Y6 Paris, BDM3Y1 Paris and BDM3Y1 Reid. Among these models, the shallowest depth Potential generated by BDM3Y1 Reid interaction model, which reflects the necessity to use higher renormalization factor. The calculated angular distributions are in a good agreement with the experimental data in the whole angular range. The calculations have been performed using SFRESCO computational code.