Differential scanning calorimetry of copolymer of isotactic polypropylene backbone with grafted poly(ethylene‐<i>co</i>‐propylene) branches

Whitney, Philip M.; Zhu, Shiping

doi:10.1002/app.23046

J of Applied Polymer Sci

2006

DOI: 10.1002/app.23046

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Differential scanning calorimetry of copolymer of isotactic polypropylene backbone with grafted poly(ethylene‐co‐propylene) branches

Philip M. Whitney¹,

Shiping Zhu²

Abstract: A series of graft polymers having polypropylene (PP) backbone and poly(ethylene-co-propylene) (EPR) side chains was prepared. PP backbone molecular weight (M n ) was 28 -98 kg/mol, EPR side chain M n was 2.6 -17 kg/mol, and EPR content was 0 -16 wt %. In this work, thermal analysis of the copolymers was performed using differential scanning calorimetry (DSC). Nonisothermal crystallization was performed at different cooling rates. The DSC thermograms revealed multiple melting peaks for slowly cooled samples, mo… Show more

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Cited by 2 publications

References 72 publications

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Study of the modification of the properties of (PP/EPR) blends with a view to preserving natural resources when elaborating new formulation and recycling polymers

Mnif

Massardier

Kallel³

et al. 2008

Polymer Composites

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International audienceThe aim of the present work is to study how CaCO3, very abundant on earth, can be blended with polypropylene/ethylene propylene rubber (PP/EPR) either to preserve natural resources when elaborating virgin formulations or to simulate mixtures of waste made of CaCO3 filled PP with PP/EPR which could result from end-of-life-vehicles (ELV). The article focuses on the studies of PP/EPR blends, used in the manufacture of automobile fenders, in the presence of nano-CaCO3 and compatibilizers. Blends of various compositions (with and without compatibilizer and nanoparticles) were prepared using a corotating twin-screw extruder. The results were compared with the ones presented by a commercial (PP/EPR) blend. The experiments included mechanical tests, differential scanning calorimetry, scanning electron microscopy, and dynamic mechanical analysis experiments. The presence of the compatibilizers in the (PP/EPR) blends decreases the size of elastomer particles, improves the adherence to the interface and improves the mechanical properties. The nano-CaCO3 would also seem to act as a nucleating agent in the PP/EPR matrix; it increases the cristallinity and the Young modulus of the blends

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Study of the modification of the properties of (PP/EPR) blends with a view to preserving natural resources when elaborating new formulation and recycling polymers

Mnif

Massardier

Kallel³

et al. 2008

Polymer Composites

View full text Add to dashboard Cite

show abstract

Polypropylene/silica nanocomposites in situ prepared via sol-gel reactions using porous spherical poly(propylene-g-(styrene-alt-maleic anhydride)) granules as reaction loci

Yang

2015

Chin J Polym Sci

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Using the porous polypropylene (PP) granules consisting of submicroparticles prepared by the reactor granular technology (RGT), a facile process was developed to synthesize in situ polypropylene/silica nanocomposites where styrenealt-maleic anhydride copolymers (PSM) were firstly grafted onto both the outer-and the inner-pore surfaces of PP granules via solid-phase grafting polymerization, and then a sol-gel reaction was conducted inside these micro-pores with the carboxyl acid derived from maleic anhydride as catalyst. TEM micrographs demonstrated that the silica nanoparticles obtained by this strategy had a size around 1020 nm in diameter and uniformly dispersed in the PSM-based nanocomposites. More importantly, the silica nanoparticles could significantly reduce the size of PP spherulites. Consequently, the PP/silica nanocomposites with high transparency and good mechanical performance were achieved.

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Differential scanning calorimetry of copolymer of isotactic polypropylene backbone with grafted poly(ethylene‐co‐propylene) branches

Cited by 2 publications

References 72 publications

Study of the modification of the properties of (PP/EPR) blends with a view to preserving natural resources when elaborating new formulation and recycling polymers

Study of the modification of the properties of (PP/EPR) blends with a view to preserving natural resources when elaborating new formulation and recycling polymers

Polypropylene/silica nanocomposites in situ prepared via sol-gel reactions using porous spherical poly(propylene-g-(styrene-alt-maleic anhydride)) granules as reaction loci

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