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范文编号:CL089 范文字数:9515,页数:30 摘 要:本范文用自由基聚合方法,制备了苯乙烯、马来酸酐二元接枝低密度聚乙烯共聚物。用红外光谱对LDPE-g-MAH/St进行表征;用偏光显微镜观察接枝后聚合物的晶形,并与低密度聚乙烯的晶形进行比较。利用差示量热扫描热分析仪(Differential Scanning Calorimetry,DSC)研究了改性后的LDPE-g-MAH/St的等温和非等温结晶动力学行为。其中,等温结晶过程分别研究了结晶温度在92、93、94、95℃下的结晶行为,用Avrami方程、Hoffman理论等研究了LDPE和接枝物LDPE-g-MAH/St材料的等温结晶动力学,并且求得Avrami参数n,K(T),t1/2(T)。非等温过程,研究了降温速率分别在5、10、15、30℃/min下的结晶行为,用Ozawa方程,Ozawa和Avrami组合方程研究LDPE和接枝物LDPE-g-MAH/St材料的非等温结晶动力学,结果发现Ozawa方程不适合这个体系,而利用由莫志深提出的Ozawa和Avrami组合方程能很好的描述。 Abstract: In this paper, the graft copolymer LDPE-g-MAH/St was prepared with LDPE, monomers of styrene and malefic anhydride via free radical polymerization. The copolymer was characterized by IR. Then the crystal morphology of copolymer was investigated by polarizing microscope. Differential scanning calorimetry (DSC) was used to analyze their isothermal and non-isothermal crystallization behavior. In the isothermal crystallization process, the crystallization temperature was set in 92、93、94 and 95 ° c. The Avrami equation and Hoffman theory was used to analysis LDPE and LDPE-g-MAH/St, then obtained parameters of Avrami equation——n, K (T), t1 / 2 (T).In the case of non-isothermal crystallization, the cooling rate was set in 5, 10, 15, 30 ° c/min respectively. It was found that the Ozawa analysis was rather inapplicable for the copolymer. In contrast, the modified Avrami method, as well as the method proposed by Mo was applied giving satisfactory results. 目 录
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