4.6 Article

Effect of the elastomer viscosity on the morphology and impact behavior of injection molded foams based on blends of polypropylene and polyolefin elastomers

Journal

JOURNAL OF APPLIED POLYMER SCIENCE
Volume 138, Issue 20, Pages -

Publisher

WILEY
DOI: 10.1002/app.50425

Keywords

elastomers; foams; mechanical properties; rheology

Funding

  1. Junta of Castile and Leon grant
  2. Junta of Castile and Leon [VA275P18]
  3. Spanish Ministry of Science, Innovation and Universities [RTI2018-098749-B-I00]
  4. University of Valladolid

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This study investigated the effect of adding elastomers on the performance of injection-molded foamed parts, and the results showed that elastomer toughening successfully improved the impact resistance of solid and cellular polymers.
The impact resistance of injection-molded polypropylene (PP) parts is severely reduced when they are foamed. It is necessary to implement strategies, such as elastomer toughening, to increase the impact behavior of foamed parts. However, the knowledge on the effect of elastomer addition on the morphology, cellular structure, and impact of injection-molded cellular parts is very limited. In this work, foamed parts based on blends of PP and polyolefin elastomers have been produced and characterized. A high and a low viscosity octene-ethylene copolymer (EOC) and a high viscosity butene-ethylene copolymer (EBC) were employed. The blends have been thermally and rheological characterized. Solids materials and foams (relative density 0.76) were injection-molded. The solid phase and cellular structure morphologies were studied using scanning electron microscopy. The results showed that elastomer toughening has been successful to obtain an improvement of the impact behavior in solid and cellular polymers. In this case, EOC materials provide an appropriate interfacial adhesion and optimized cellular structure which results in high impact resistance. The optimum elastomer to improve the properties is the EOC with a higher viscosity which provides impact resistance with n values below 3 due to the toughening of polymer matrix, thick skin thickness, and low cell size.

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