Response of<i>Prosopis farcta</i>to copper and cadmium stress and potential for accumulation and translocation of these heavy metals

A high-melt-strength polypropylene (HMSPP) was prepared using a twin-screw reactive extruder from a commercial isotactic polypropylene through two stages, first, maleic anhydride is grafted to polypropylene to obtain a maleic anhydride-grafted polypropylene (PP-g-MA), and then the grafted polymer is reacted with epoxy to extend the branched chain. Fourier transformed infrared spectroscopy indicated that maleic anhydride was grafted on polypropylene and reacted with epoxy. Melt flow rate and sag resistance test showed that the melt strength of the HMSPP improved considerably. Differential scanning calorimetry test showed that the long chain branches (LCBs) act as a nucleating agent in the crystallization of the HMSPP, which leads to a high crystallization temperature and crystallinity. Furthermore, the LCB efficiency of the HMSPP can also be calculated by analyzing its rheological property.

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Effect of composition on fracture behavior of polypropylene–wollastonite–polyolefin elastomer system

Dai

et al. 2010

J Mater Sci

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Assembly of luminescent Ag(I) coordination architectures adjusted by modification of pyrimidine-based thioether ligands

Han

et al. 2005

Inorganica Chimica Acta

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Baiquan Chen

Evaluation and development of temperature-based empirical models for estimating daily global solar radiation in humid regions

A new method for producing high melt strength polypropylene with reactive extrusion

Effect of composition on fracture behavior of polypropylene–wollastonite–polyolefin elastomer system

Assembly of luminescent Ag(I) coordination architectures adjusted by modification of pyrimidine-based thioether ligands

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