دانلود Linear and non-linear rheological behavior of polypropylene/ polyamide blends modified with a compatibilizer agent and nanosilica and its relationship with the morphology

ترجمه فارسی Linear and non-linear rheological behavior of polypropylene/ polyamide blends modified with a compatibilizer agent and nanosilica and its relationship with the morphology
قیمت : 375,000 ریال
شناسه محصول : 2009450
نویسنده/ناشر/نام مجله : European Polymer Journal
سال انتشار: 2016
تعداد صفحات انگليسي : 12
نوع فایل های ضمیمه : Pdf+Word
حجم فایل : 1 Mb
کلمه عبور همه فایلها : www.daneshgahi.com
عنوان انگليسي : Linear and non-linear rheological behavior of polypropylene/ polyamide blends modified with a compatibilizer agent and nanosilica and its relationship with the morphology

چکیده

Abstract

The morphology of immiscible 80/20 polypropylene/polyamide 6 (PP/PA) blends that contain different types of nanosilica and a compatibilizer agent was correlated with their linear and non-linear rheological behavior. Polypropylene grafted with maleic anhydride (PPgMA) was used as compatibilizer agent. Two types of modified silica nanoparticles were added to the blends, one hydrophilic (NSE) and the other hydrophobic (NSH). SEM and TEM microscopy were employed to observe the sea-island morphology of the 80/20 blends. The size of the PA droplets was reduced 12 times when the compatibilizer agent was added; and 25 times when hydrophobic nanosilica (NSH) was additionally included in the formulation. TEM results revealed that NSH particles are preferentially located at the PP-PA interface, whereas NSE particles remain inside the PA droplets. A good agreement between morphology and small amplitude oscillatory shear tests (SAOS) was observed. At low frequencies a suspension-like rheological behavior was identified for the blends containing nanosilica. The results at intermediate frequencies allowed the evaluation of the shape relaxation time of the droplets. Large amplitude oscillatory shear tests (LAOS) results correlate well with droplets size. The coalescence promoted by flow was investigated, and in the case of the neat binary blend, coalesced blends were obtained. Employing LAOS results determined by measuring blends with a wide range of droplet sizes, an inversely proportional function of a characteristic LAOS parameter with the diameter of the droplets was obtained.

Keywords: Polymer blends Nanocomposites Morphology
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