1) Photocross linked polyethylene
光交联聚乙烯
2) cross-linking PE
交联聚乙烯
1.
The good anti-oxidant results were shown when the product was applied to cross-linking PE insulator or other plastic materials.
将该产品应用于交联聚乙烯绝缘料等塑料材料中进行试验,获得了较好的抗氧化结果,且合成工艺合理、产品质量稳定,具有良好的应用前景。
3) XLPE
交联聚乙烯
1.
Analysis and Comparison of the Crosslinking Processes for XLPE Cable lnsulation;
电线电缆绝缘交联聚乙烯交联工艺的分析和对比
2.
Research and development of HV XLPE cable water-tree fault on-line monitoring;
高压交联聚乙烯电力电缆水树枝缺陷在线监测系统的研制
3.
Analysis of the Thermal Stability of XLPE Insulation;
交联聚乙烯绝缘材料热稳定性分析
4) crosslinked polyethylene
交联聚乙烯
1.
Application and technical progress of crosslinked polyethylene;
交联聚乙烯的应用及技术进展
2.
The Degradation and Reclamation of Crosslinked Polyethylene;
交联聚乙烯的降解及再生利用
3.
The properties、application and development prospect of crosslinked polyethylene are introduced?The technologies for production of crosslinked polyethylene are reviewed,including radiataion crosslinking,peroxide crosslinking,silane crosslinking,ultra-violet crosslinking,salt crosslinking.
介绍了交联聚乙烯的性能、用途以及发展前景,概述了交联聚乙烯的几种生产技术,包括辐射交联、过氧化物交联、硅烷交联、紫外光交联、盐交联等交联方法,提出了发展我国交联聚乙烯生产的一些建议。
5) cross-linked polyethylene
交联聚乙烯
1.
The formation and evaluation of space charge in cross-linked polyethylene have been studied by using Piezo-PWP and TSD methods.
用 PWP法与 TSD法对交联聚乙烯中的空间电荷形成和演变过程进行了测量 ,两次 TSD的测量结果有很大的不同 ,而在 PWP法的测量结果中这种差别却并不明显 ,说明这两种方法的联合应用能更深入完全地反映空间电荷的实际情况 。
2.
The HVDC withstand voltage test can discover the defect of paper insulated cable efficiently, but it has limitation in discovering the defect of cross-linked polyethylene insulated power cable.
分析了高电压直流耐压试验可有效发现纸绝缘电缆缺陷,但在发现交联聚乙烯绝缘电力电缆缺陷方面有局限性。
6) Cross-linked polystyrene
交联聚苯乙烯
1.
Through chloromethylated and cross-linked polystyrene being moderately Friedel-Crafts post-cross linked and then aminated,a series of new macroporous resins,which have larger physical surface area and some alkalescent ion-exchanged groups,were produced.
但吸附树脂交联聚苯乙烯疏水性强,水相与树脂之间的界面能较大,通过氯甲基化引入极性基团可以改善树脂的吸附性能[2]。
2.
The three-dimensionally ordered macroporous cross-linked polystyrene(3DOM CLPS)with pore size in the range of 200~1020nm is prepared by the method of template-directed synthesis.
利用二氧化硅模板法,采用苯乙烯-二乙烯基苯自由基共聚方法制备了孔径在200~1020nm的三维有序交联聚苯乙烯大孔材料,并在此基础上通过氯甲基化反应对所制备的有序孔材料进行孔壁功能化。
补充资料:辐射交联聚乙烯
分子式:
分子量:
CAS号:
性质:交联聚乙烯的一种。密度0.92。热变形温度(1.87兆帕)38~79℃,连续耐热达135℃。体积电阻率>1015欧姆·厘米,介电常数2.27~7.60,介电损耗角正切0.003~0.005。击穿电压(厚3.2毫米)230~1420伏/毫米,吸水率0.01%~0.06%。可用作耐高电压、耐高频的耐热绝缘材料,用于包覆电缆电线,也可用于热收缩薄膜和套管。以高能射线:如β射线、γ射线等辐射聚乙烯使之发生交联而得。
分子量:
CAS号:
性质:交联聚乙烯的一种。密度0.92。热变形温度(1.87兆帕)38~79℃,连续耐热达135℃。体积电阻率>1015欧姆·厘米,介电常数2.27~7.60,介电损耗角正切0.003~0.005。击穿电压(厚3.2毫米)230~1420伏/毫米,吸水率0.01%~0.06%。可用作耐高电压、耐高频的耐热绝缘材料,用于包覆电缆电线,也可用于热收缩薄膜和套管。以高能射线:如β射线、γ射线等辐射聚乙烯使之发生交联而得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条