MgCl2-SUPPORTED FI CATALYST ACTIVATED WITH TMA FOR ETHYLENE POLYMERIZATION

Abstract

In this study, the synthesis of heterogeneous catalyst, which can react with trimethylaluminum (TMA) dispersed on the MgCl2​:EtOH adduct (-OH group) is crucial to improve the ethylene polymerization activity. Therefore, in this study the proper molar ratios of TMA and MgCl2:EtOH adduct was investigated to produce high molecular weight polyethylene (HMWPE). The phenoxy-imine Ti-based catalyst (FI catalyst) was employed using TMA as cocatalyst precursor. In the first part, the suitable molar ratios of MgCl2/EtOH is 1:6. However, the amounts of TMA were varied and found properly at MgCl2/EtOH/TMA ratio of 1:6:6.3 to obtain the highest activity. The optimum mole ratio of MgCl2/EtOH/TMA ​was used in the next section. In the second part, the addition of cross-linking agents was studied to improve the MgCl2-supported FI catalyst properties. It can be found that adding glycerol could control molecular weight of polymer to obtain HMWPE, which is similar to with only FI catalyst. However, it exhibited higher catalytic activity than the FI catalyst without cross-linking agent addition.