Effect of compatibilizer concentration on dynamic rheological behavior and morphology of thermoplastic starch/polypropylene blends

Abstract: The reactive compatibilization of blends consisting polypropylene (PP) and thermoplastic starch (TPS) (70/30) with different portions of PP‐grafted maleic anhydride (PP‐g‐MA) is carried out by melt mixing. The esterification reaction between the starch hydroxyl and the PP‐g‐MA groups proved by the FTIR leads to a compatibility improvement. The dynamic rheological properties, morphology, elongation at break, and the impact strength of the blends were studied. The SEM images show that increasing the compatibiliz… Show more

“…It is known that size, size distribution of reinforcement phase and the adhesion quality of interface between matrix and the reinforcement phase are important factors for the mechanical performance of polymer blends and composites. [33][34][35] Thus, the morphological properties of the tensile and impact fractured surfaces of the copolymers and the coproducts were examined meticulously by SEM analysis in order to unfold how the presence of varying amount of poly(BPOCPA) in the polymer matrix affected the surface topographies of the products. The SEM images (taken with varying magnifications) regarding the tensile and impact fractured surfaces belonging to the copolymers and the coproducts were presented in Figures 11 and 12, respectively.…”

Detailed analysis on thermal, microstructural, mechanical, and morphological features of side chain liquid crystalline polymer/isotactic polypropylene graft copolymers: Effect of grafted and ungrafted polymer units

“…It is known that size, size distribution of reinforcement phase and the adhesion quality of interface between matrix and the reinforcement phase are important factors for the mechanical performance of polymer blends and composites. [33][34][35] Thus, the morphological properties of the tensile and impact fractured surfaces of the copolymers and the coproducts were examined meticulously by SEM analysis in order to unfold how the presence of varying amount of poly(BPOCPA) in the polymer matrix affected the surface topographies of the products. The SEM images (taken with varying magnifications) regarding the tensile and impact fractured surfaces belonging to the copolymers and the coproducts were presented in Figures 11 and 12, respectively.…”

Detailed analysis on thermal, microstructural, mechanical, and morphological features of side chain liquid crystalline polymer/isotactic polypropylene graft copolymers: Effect of grafted and ungrafted polymer units

“…9 Maleic anhydride (MA) grafting thermoplastic polymers is typically used as a compatibilizer agent. 5,8,[10][11][12] The MA group presents highly reactive with a wide variety of polymer chains and biological macromolecules. 5 Passador et al 11 studied the influence of the addition of MA grafted high-density polyethylene (HDPE-g-MA) and MA grafted linear low-density polyethylene (LLDPE-g-MA) in HDPE/ LLDPE/nanoclay nanocomposites.…”

Effectiveness of the preparation of maleic anhydride grafted poly (lactic acid) by reactive processing for poly (lactic acid)/carbon nanotubes nanocomposites

“…One of the most important wavenumbers is 1758 cm −1 . According to Table 1, this wavenumber is related to the ester bond formed between the maleic anhydride of the compatibilizer agent and the hydroxyl group in the chemical structure of starch 18 …”

“…Hydrophobic polymers mixed with TPS can protect TPS from direct contact with water and moisture absorption. In general, the addition of TPS slightly reduces the modulus and tensile strength and, most importantly, the strain at the breaking point 8,9,12–21 …”

A study on melt recycling of bio‐based polypropylene/thermoplastic starch compound