齐鲁石油化工
齊魯石油化工
제로석유화공
Qilu Petrochemical Technology
2015年
3期
185-188
,共4页
唐岩%谢侃%王群涛%侯斌%郭锐
唐巖%謝侃%王群濤%侯斌%郭銳
당암%사간%왕군도%후빈%곽예
聚乙烯%管材料%茂金属催化剂%铬系催化剂%结构%性能
聚乙烯%管材料%茂金屬催化劑%鉻繫催化劑%結構%性能
취을희%관재료%무금속최화제%락계최화제%결구%성능
polyethylene%pipe resin%metallocene catalyst%chromium -based catalyst%structure%property
采用凝胶渗透色谱(GPC)、核磁共振分析(13C NMR)、DSC热分级等技术研究了茂金属催化剂和铬系催化剂PE管材料的分子结构,并对DGDB2480H 、QHM22F 这2种管材料的静液压性能进行了测试。结果表明,QHM22F熔融温度不高,但高温条件下的静液压强度远高于DGDB2480H。由于共聚单体己烯-1在主链上的分布差异导致了两者片晶厚度分布的差异,由此导致PE管材制品在静液压性能上的差异,所以DGDB2480H不能作为PE-RT管材料用做冷热水的输送。
採用凝膠滲透色譜(GPC)、覈磁共振分析(13C NMR)、DSC熱分級等技術研究瞭茂金屬催化劑和鉻繫催化劑PE管材料的分子結構,併對DGDB2480H 、QHM22F 這2種管材料的靜液壓性能進行瞭測試。結果錶明,QHM22F鎔融溫度不高,但高溫條件下的靜液壓彊度遠高于DGDB2480H。由于共聚單體己烯-1在主鏈上的分佈差異導緻瞭兩者片晶厚度分佈的差異,由此導緻PE管材製品在靜液壓性能上的差異,所以DGDB2480H不能作為PE-RT管材料用做冷熱水的輸送。
채용응효삼투색보(GPC)、핵자공진분석(13C NMR)、DSC열분급등기술연구료무금속최화제화락계최화제PE관재료적분자결구,병대DGDB2480H 、QHM22F 저2충관재료적정액압성능진행료측시。결과표명,QHM22F용융온도불고,단고온조건하적정액압강도원고우DGDB2480H。유우공취단체기희-1재주련상적분포차이도치료량자편정후도분포적차이,유차도치PE관재제품재정액압성능상적차이,소이DGDB2480H불능작위PE-RT관재료용주랭열수적수송。
The molecular structures of PE pipe resins produced by metallocene catalyst and chromium-based catalyst were studied by means of gel permeation chromatography ( GPC ) , nuclear magnetic resonance ( 13 C NMR) , and DSC thermal fractionation.Hydrostatic properties of two pipe resins DGDB2480 H and QHM22 F were tested.Results show that QHM22 F has lower melt temperature but the hydrostatic properties at higher temperature are considerably higher than those of DGDB2480H.The difference of hydrostatic properties between the two resins is due to the comonomer′s distribution in the main chains, which result in the difference distribution of lamella thickness.That is why DGDB2480 H should not be allowed using for hot and cold water installations.
