Abstract
The mechanical blending of polypropylene and low-density polyethylene is an economical and simple method for producing new polymeric materials for specific applications. However, the reduction in mechanical properties of the blend is one of its main shortcomings. In this study, a filler masterbatch including nano-silicon dioxide, compatibilizer, lubricant agent, and antioxidant agent was prepared, and polypropylene–low-density polyethylene composite parts with different content of filler masterbatch were fabricated and tested for mechanical properties at two tensile test speeds. Also, to investigate the underlying mechanism of the mechanical properties improvement, the tested samples were carefully analyzed and compared and further characterized by scanning electron microscopy and differential scanning calorimetry. The results indicate that the mechanical properties, including tensile strength, moduli, and elongation, can be all drastically improved simultaneously with the addition of the filler masterbatch. The results also suggest that the compatibility of the two phases increases with the increase in the filler masterbatch, and the crystal size decreases and distribution uniforms owing to the addition of the filler masterbatch. Furthermore, it was also found that there is a close relationship between the mechanical properties and morphological structures, which are improved by the existence of the filler masterbatch.
Highlights
Polypropylene (PP) and low-density polyethylene (LDPE) are both widely used polyolefin polymers owing to their advantages such as low density, high stiffness, high softening temperature, and good chemical inertness
As to the PP– LDPE–Ethylene-vinyl acetate copolymer (EVA) sample, which has a relatively low tensile strength and high strain-at-break compared to that of the PLN0 sample, it indicates that the elongation increases and the strength decreased with the addition of EVA
The compatibility and crystallization, which influenced by the compatibilizers and nanofiller, of PP– LDPE composites parts molded by conventional injection molding (CIM) were investigated
Summary
Polypropylene (PP) and low-density polyethylene (LDPE) are both widely used polyolefin polymers owing to their advantages such as low density, high stiffness, high softening temperature, and good chemical inertness. It can be concluded from these results that one single composition of EVA, PP-g-MA, and nanoSiO2 has less influence on the mechanical properties of PP–LDPE blends.
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