低线膨胀系数高耐压MF-PPR管材的制备及表征
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摘要
采用玻璃纤维改性制备了低线膨胀系数、高耐压纤维增强无规共聚聚丙烯(MF-PPR)管材。通过控制纤维长度及其分布,以及适当的界面改性,降低了MF-PPR管材的线膨胀系数,提高了其耐压性能。
MF-PPR pipe with low linear expansion coefficient and high pressure resistance was prepared by using glass fiber. The linear expansion coefficient of pipe product was reduced and the pressure resistance of pipe product was increased by controlling the fiber length and its distribution, and the appropriate interface modification.
MF-PPR pipe with low linear expansion coefficient and high pressure resistance was prepared by using glass fiber. The linear expansion coefficient of pipe product was reduced and the pressure resistance of pipe product was increased by controlling the fiber length and its distribution, and the appropriate interface modification.
引文
[1]樊小爱.聚丙烯(PPR)管材在给水工程中的应用[J].科技情报开发与经济,2006,16(12):251-252.
[2]黄荷山,陈其兴,王荣显.浅析聚丙烯管道施工中应注意的问题[J].工程质量:A版,2010,28(6):57-59.
[3]顾彬,张强,肖青青,等.宏观法线膨胀系数测试仪:中国,202582469U[P].2012-12-05.
[4]席世亮,姜南.单螺杆挤出机螺纹元件的改进结构及混合[J].塑料,2002,31(4):76-79.
[5]F·汉森.塑料挤出技术[M].北京:中国轻工业出版社,2001.
[6]A T Dibenedetto.Tailoring of interfaces in glass fiber reinforced polymer composites:A review[J].Material Science and Engineering Part A,2001,302(1):74-82.
[7]黄玉东,孔宪仁.界面层对纤维与基体间载荷传递能力的影响[J].复合材料学报,1996(3):21-26.
[8]李恒德,肖基美.材料表面与界面[M].北京:清华大学出版社,1990.
[2]黄荷山,陈其兴,王荣显.浅析聚丙烯管道施工中应注意的问题[J].工程质量:A版,2010,28(6):57-59.
[3]顾彬,张强,肖青青,等.宏观法线膨胀系数测试仪:中国,202582469U[P].2012-12-05.
[4]席世亮,姜南.单螺杆挤出机螺纹元件的改进结构及混合[J].塑料,2002,31(4):76-79.
[5]F·汉森.塑料挤出技术[M].北京:中国轻工业出版社,2001.
[6]A T Dibenedetto.Tailoring of interfaces in glass fiber reinforced polymer composites:A review[J].Material Science and Engineering Part A,2001,302(1):74-82.
[7]黄玉东,孔宪仁.界面层对纤维与基体间载荷传递能力的影响[J].复合材料学报,1996(3):21-26.
[8]李恒德,肖基美.材料表面与界面[M].北京:清华大学出版社,1990.