21 research outputs found
Competition between alpha, beta and gamma polymorphs in a beta-nucleated metallocene isotactic polypropylene
Effect of a thermoplastic elastomer compatibilizer (sebs-g-mah) on the properties of PP/PET blends
10 pags., 9 figs., 2 tabs.Polyethylene terephthalate (PET) and polypropylene (PP) are widely used and frequently encountered in domestic and industrial plastics, especially in the soft drink bottles. In the present work, different compositions of PP/PET blends were prepared and compatibilized by various contents of SEBS-g-MAH. The compatibilizing efficiency was examined using macro- (tensile and impact strength) and micro-mechanical testing (microhardness measurement), differential scanning calorimetry (DSC), wide-angle X-ray scattering (WAXS), and melt flow index (MFI) determinations. The results show that the addition of SEBS-g-MAH improves the processability and the toughness of these blends. The changes in the melting enthalpies (ΔH) of the PP and PET components and the decrease of MFI values in the compatibilized blends indicated enhanced interactions between the discrete PET and PP phases induced by the functional compatibilizer. The DSC crystallinity of each component depended on the blend composition, and was slightly influenced by the presence of the compatibilizer. In the samples subjected to compression molding, the WAXS crystallinity of PP component slightly decreased in the presence of increasing amounts of compatibilizer.One of the authors (MEC) wishes to
thank the Spanish Ministry of Science and Innovation
MICINN for the financial support of this investigation (Grant
MAT2009-07789).Peer Reviewe
Composites of a polypropylene random copolymer and date stone flour: Crystalline details and mechanical response
Several composites were prepared based on a polypropylene random copolymer (PPR) and different amounts of date stone flour (DSF). This cellulosic fiber was silanized beforehand in order to reduce its hydrophilicity and improve the interfacial adhesion with the polymer. Other composites were also obtained, including a sorbitol derivative as an effective nucleant. Films made from these composites were prepared using two different thermal treatments, involving slow crystallization and rapid cooling from the melt. Scanning electron microscopy was used to evaluate the morphological features and the DSF particle dispersion within the PPR matrix. X‐ray diffraction experiments and differential scanning calorimetry tests were employed to assess the crystalline characteristics and for the phase transitions, paying especial attention to the effects of the DSF and nucleating agent on PPR crystallization. An important nucleation ability was found for DSF, and evidently for the sorbitol derivative. The peak crystallization temperature upon cooling was considerably increased by the incorporation of either the nucleant or DSF. Additionally, a much higher proportion of orthorhombic crystals developed in relation to the monoclinic ones. Moreover, the mechanical responses were estimated from the microhardness experiments and significant improvements were found with increasing DSF contents. All of these findings indicate that the use of silanized DSF is a fairly good approach for the preparation of polymeric eco‐composites, taking advantage of the widespread availability of this lignocellulosic material, which is otherwise wasted.This research was funded by AEI/FEDER, UE (grant number MAT2016-79869-C2-1-P),
and CSIC (grant number 2020AEP129
Toughening of Immiscible rPS/SAN Blends by SEBS Elastomers: Properties and Morphology
In this research, an attempt was made to improve compatibility in a polymer
blend composed of incompatible constituents, namely, recycled polystyrene
(rPS) and polystyrene-co-acrylonitrile (SAN), through the addition
of a compatibilizer. The compatibilizing agent, styrene-ethylenebutadienestyrene
block copolymer (SEBS), was added to the polymer blend in ratios
of 5 and 10 wt%. For this purpose, blends of rPS and SAN at different ratios,
without and with varying concentrations of compatibilizer, were prepared
by melt blending using a co-rotating twin-screwextruder. Mechanical
properties including tensile and impact strength, rheological properties
(RPA), thermal behaviour (DSC) and morphological characteristics (SEM)
were evaluated. According to the results obtained by complex viscosity, the
blends behave as a pseudoplastic fluid. The results showed that the addition
of SEBS increased the Izod impact strength and the elongation at break and
decreased the tensile strength and tensile modulus. rPS/SAN blend modified
with SEBS had better mechanical properties than the rPS/SAN alloy.
SEM photographs revealed that the SEBS was not only distributed in the
SAN phase but also distributed in rPS phase in rPS/SAN/SEBS blend. Furthermore,
DSC analysis for blends of rPS/SAN gave a good indication of the
improvement on miscibility for most compositions. SEM micrographs of
tensile fracture surfaces indicated that the formation of the co-continuous
phase and the improvement of interface adhesion are the most important
reasons for the excellent tensile properties of the rPS/SAN/SEBS blends.
Within the range of analysed compositions, the morphologies investigated
by SEM are typical of immiscible blends.K.B. would like to thank Dr Maria del Pilar Posadas Bernal, Dr Patricia Sampe-
droTejedor and Grupo de Elastomeros for their help in hosting him as a doctoral
student to carry out the experimental part of his PhD thesis at the Elastomeros
laboratory, Instituto de Ciencia y Tecnologia de Polimeros (ICTP-CSIC) Madrid,
Spain. This research was funded by Spanish Ministry of Science and Innovation
(MINECO) through the research projects RTI2018-096636-J-100 and PID2020-
119047RB-100.Peer reviewe
Effect of thermal treatment on the mechanical and viscoelastic response of polypropylenes incorporating a β
Prediction study of structural, electronic and optical properties of 4C16H10Br2O2 Bis (m-bromobenzoyl) methane crystals
By first-principles calculations with density functional theory and a pseudopotential approach, the structural, electronic, and optical properties of the anhydrous 4C16H10Br2O2 Bis (2-Bromobenzoyl) Methane crystals in Pbnc (N°60) and P21/c (N°14) space group are investigated. All computations are determined by a generalized gradient approximation, local density approximation and an ultra-soft pseudopotential. The calculated equilibrium parameters are in good agreement with their available experimental data. This calculation shows that the GGA/PW91 functional overestimate the lattice constant, unlike the LDA/CA-PZ. The Br–C bond distance of 1.856 (1.902) Å is comparable with experimental value of 1.901 (1.896) Å in Pbnc (P21/c) space groups. The direct band gap nature is obtained for both space groups Pbnc and P21/c, since the maximum of the valence band and the minimum of the conduction band are both situated at the YA center
On a contribution to study some mechanical properties of WEEE recycled polymer blends
This research deals with the study of acrylonitrile-butadiene-styrene/polycarbonate (ABS/PC) totally derived from wastes of electrical and electronic equipment (WEEE). The aim of this study is to investigate the macroscopic use properties of 100% recycled polymers and compare them with the virgin materials. First, a preliminary work of sorting and characterization of the wastes was necessary to identify the predominant polymer components in the lots. Then, four compositions of blends (ABS/PC) were performed at laboratory using the twin-screw extruder and injection techniques. Next, a series of experimental tests were carried out to investigate the morphology of the blends, their mechanical and thermo-mechanical behavior. The experimental results highlighted the synergistic effect by blending ABS and PC wastes. In addition, the comparison with the virgin mixtures has shown a decrease in the mechanical properties of the waste blends, however, the mechanical behavior is still ductile and the blends stiffness was enhanced