Simultaneously improving the toughness, flexural modulus and thermal performance of isotactic polypropylene...


Citation

 

Yewen Cao, Jiachun Feng*, and Peiyi Wu. Simultaneously Improving the Toughness, Flexural Modulus and Thermal Performance of Isotactic Polypropylene by Alpha-Beta Crystalline Transition and Inorganic Whisker Reinforcement. Polym. Eng. Sci.2010, 50, 222-231.

 


Abstract

 

Magnesium salt (M-HOS) whisker and β-nucleating agent were introduced into polypropylene and their effects on the crystalline structures, morphologies, mechanical properties, and thermal resistance of polypropylene (PP) were investigated. The results of wide angle X-ray diffraction (WAXD), differential scanning calorimetry (DSC), and polar optical microscopy (POM) examinations suggested that the presence of the whisker did not cause any negative effect on the occurrence of β-modification, and β-phase became absolutely dominant form in β-nucleated samples. The mechanical and thermal properties tests demonstrated that there is an excellent synergy between the β-nucleating agent and the whisker. For PP composite containing 0.1 wt% of the β-nucleating agent and 10 wt% of the whiskers, the Izod notched impact strength, elongation at break, flexural modulus, and heat deflection temperature were increased by 108, 194, 31, and 40%, respectively, compared with those of neat PP. By combining the toughening effect of α–β transition with the reinforcing effect of the whisker, simultaneous improvement in toughness, flexural modulus, and thermal performance of PP was successfully achieved. 

 

 


 

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