β-Crystallisation tendency and structure of polypropylene grafted by maleic anhydride and its blends with isotactic polypropylene

Crystallization, melting and structure of three different commercial types of isotactic polypropylene (iPP) grafted by maleic anhydride (PP-g-MAH) with different maleic anhydride content (AC) and their β-nucleated versions were studied by X-ray diffractometry (WAXS), differential scanning calorimetr...

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Veröffentlicht in:	Journal of thermal analysis and calorimetry 2008-09, Vol.93 (3), p.937-945
Hauptverfasser:	Menyhárd, A., Faludi, G., Varga, J.
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Sprache:	eng
Schlagworte:	Analytical Chemistry Applied sciences Chemistry Chemistry and Materials Science Crystallization Exact sciences and technology Inorganic Chemistry Measurement Science and Instrumentation Organic polymers Physical Chemistry Physicochemistry of polymers Polymer Sciences Properties and characterization
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container_end_page	945
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container_title	Journal of thermal analysis and calorimetry
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creator	Menyhárd, A. Faludi, G. Varga, J.
description	Crystallization, melting and structure of three different commercial types of isotactic polypropylene (iPP) grafted by maleic anhydride (PP-g-MAH) with different maleic anhydride content (AC) and their β-nucleated versions were studied by X-ray diffractometry (WAXS), differential scanning calorimetry (DSC), polarised light microscopy (PLM) and scanning electron microscopy (SEM). The presence of maleic anhydride units disturbs the chain regularity, hereby decreases the crystallization tendency of iPP in general and the β-crystallisation ability in particular. β-modification of iPP (β-iPP) forms only in β-nucleated PP-g-MAH polymers studied if the anhydride content is not larger than 0.5 mass%. The influence of AC of PP-g-MAH on the feature the spherulitic structure is demonstrated by PLM and SEM micrographs. The β-nucleated iPP/PP-g-MAH blends containing 10 mass% PP-g-MAH crystallise predominantly in β-form independently of AC of the latter. The β-nuceated blends of iPP and PP-g-MAH with lowest AC crystallise in β-form in whole concentration range. The interaction parameter between iPP and PP-g-MAH polymers calculated by Nishi-Wang equation indicate limited interaction between the components.
doi_str_mv	10.1007/s10973-007-8569-7
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The presence of maleic anhydride units disturbs the chain regularity, hereby decreases the crystallization tendency of iPP in general and the β-crystallisation ability in particular. β-modification of iPP (β-iPP) forms only in β-nucleated PP-g-MAH polymers studied if the anhydride content is not larger than 0.5 mass%. The influence of AC of PP-g-MAH on the feature the spherulitic structure is demonstrated by PLM and SEM micrographs. The β-nucleated iPP/PP-g-MAH blends containing 10 mass% PP-g-MAH crystallise predominantly in β-form independently of AC of the latter. The β-nuceated blends of iPP and PP-g-MAH with lowest AC crystallise in β-form in whole concentration range. 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The presence of maleic anhydride units disturbs the chain regularity, hereby decreases the crystallization tendency of iPP in general and the β-crystallisation ability in particular. β-modification of iPP (β-iPP) forms only in β-nucleated PP-g-MAH polymers studied if the anhydride content is not larger than 0.5 mass%. The influence of AC of PP-g-MAH on the feature the spherulitic structure is demonstrated by PLM and SEM micrographs. The β-nucleated iPP/PP-g-MAH blends containing 10 mass% PP-g-MAH crystallise predominantly in β-form independently of AC of the latter. The β-nuceated blends of iPP and PP-g-MAH with lowest AC crystallise in β-form in whole concentration range. 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subjects	Analytical Chemistry Applied sciences Chemistry Chemistry and Materials Science Crystallization Exact sciences and technology Inorganic Chemistry Measurement Science and Instrumentation Organic polymers Physical Chemistry Physicochemistry of polymers Polymer Sciences Properties and characterization
title	β-Crystallisation tendency and structure of polypropylene grafted by maleic anhydride and its blends with isotactic polypropylene
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