PP共混改性综述PP共混改性综述PP共混改性综述北京化工大学高分子材料改性原理及技术论文论文题目：PP共混改性的概述提交论文时间：2018年12月5日目录TOC\o”1—4”\h\z\uHYPERLINK\l"_Toc531374969”第二章PP的共混改性PAGEREF_Toc531374969\h3HYPERLINK\l"_Toc531374970"1。改进PP耐低温冲击性PAGEREF_Toc531374970\h3HYPERLINK\l”_Toc531374971"1。1PP／EPR、PP／EPDMPAGEREF_Toc531374971\h4HYPERLINK\l"_Toc531374972”1。2PP／SBSPAGEREF_Toc531374972\h4HYPERLINK\l"_Toc531374973"1.3PP／POEPAGEREF_Toc531374973\h5HYPERLINK\l”_Toc531374974"1。4PP／POE／PEPAGEREF_Toc531374974\h6HYPERLINK\l"_Toc531374975”2.改进PP透明性PAGEREF_Toc531374975\h8HYPERLINK\l”_Toc531374976”2.1基体树脂的选用PAGEREF_Toc531374976\h8HYPERLINK\l"_Toc531374977”2。2成核剂的选用PAGEREF_Toc531374977\h9HYPERLINK\l"_Toc531374978"2.3成核剂用量的确定PAGEREF_Toc531374978\h9HYPERLINK\l”_Toc531374979”2.4其他助剂对透明性的影响PAGEREF_Toc531374979\h10HYPERLINK\l”_Toc531374980"2.5挤出工艺温度的影响PAGEREF_Toc531374980\h10HYPERLINK\l”_Toc531374981”2。6聚丙烯透明改性后的典型性能分析PAGEREF_Toc531374981\h10HYPERLINK\l”_Toc531374982"3。改进PP着色性PAGEREF_Toc531374982\h11HYPERLINK\l"_Toc531374983”3。1工艺路线确定PAGEREF_Toc531374983\h11HYPERLINK\l”_Toc531374984”3.2结果与讨论PAGEREF_Toc531374984\h12HYPERLINK\l”_Toc531374985"4。改进PP亲水性PAGEREF_Toc531374985\h12HYPERLINK\l”_Toc531374986”4.1亲水助剂PAGEREF_Toc531374986\h13HYPERLINK\l"_Toc531374987"4.2共混体系相容性PAGEREF_Toc531374987\h13HYPERLINK\l"_Toc531374988"4.3其它工艺条件PAGEREF_Toc531374988\h13HYPERLINK\l"_Toc531374989"4。4共混对聚丙烯其它性能的影响PAGEREF_Toc531374989\h14HYPERLINK\l”_Toc531374990”5。改进PP抗静电性PAGEREF_Toc531374990\h14HYPERLINK\l"_Toc531374991”5。1实验试剂PAGEREF_Toc531374991\h14HYPERLINK\l”_Toc531374992”5。2核一壳结构聚苯胺粉末的制备PAGEREF_Toc531374992\h14HYPERLINK\l”_Toc531374993”5。3聚丙烯／聚苯胺复合材料的制备PAGEREF_Toc531374993\h15HYPERLINK\l"_Toc531374994”5.4测试PAGEREF_Toc531374994\h15HYPERLINK\l"_Toc531374995”5。5结果与讨论PAGEREF_Toc531374995\h15HYPERLINK\l"_Toc531374996”参考文献PAGEREF_Toc531374996\h16第二章PP的共混改性聚丙烯（PP）是由丙烯聚合而得到的高分子化合物。由于其原料丰富,合成工艺比较简单