1) PES 200
PES200
2) polyethylene
[英][,pɔli'eθəli:n] [美]['pɑlɪ'ɛθəlin]
PE
1.
Carbon black(CB) was added into poly(ethylene terephthalate)/polyethylene(PET/PE) blend by discretely feeding technology and fiber grade PET/PE/CB conductive master batch with good combined properties was prepared in reciprocating pulsation extruder.
采用分离喂料技术在聚对苯二甲酸乙二酯(PET)/聚乙烯(PE)共混物中加入导电炭黑(CB),通过布斯往复式脉动挤出机熔融共混、挤出造粒,制备了综合性能较好的纤维级PET/PE/CB导电母料。
2.
A series of PP ( propylene - ethylene copolymer) /PE ( high density polyethylene) blends with different melting flow rate ratio (RM=MFRpp/MFRPE ) were obtained by matching PP and PE with different melting flow rates (MFR).
选择不同熔体流动速率(MFR)的乙-丙共聚型聚丙烯(PP)和聚乙烯(PE),分别配混出一系列不同熔体流动速率比(R_M=MFR_(PP)/MFR_(PE))的共混体系。
3.
For the sake of preventing reuniting of polyethylene,the polyethylene is dispersed with rapid cutting and the admixture is added,which can graft into polyethylene in milling process.
目的研究聚乙烯(polyethylene,PE)、胶粉复合改性沥青的韧性、相容性能,以及抗老化性能。
3) PE pipe
PE管
1.
On the present situation and prospect of the application of PE pipe;
PE管应用技术发展的现状及前景分析
2.
On the application of PE pipe in urban water supply and drainage works;
浅谈PE管在城市给排水工程中的应用
3.
Application of PE pipe in Sheshan human drinking water supply project;
PE管在社山人饮工程中的应用
5) PE wax
PE蜡
1.
The influences of calcium stearate(CaSt_2) on the lubricating effects of paraffin wax,polyethylene wax(PE wax)and stearic acid(HSt) were discussed in detail and analyzed theoretically,and thus the concepts of "strength of lubricant film" and "rivet effect" were proposed.
详细地论述了硬脂酸钙(CaSt2)对石蜡、聚乙烯蜡(PE蜡)、硬脂酸(HSt)润滑作用的影响,并进行了理论分析,提出了“润滑膜强度”及“铆钉作用”概念。
6) PE line
PE线
1.
The paper defines different effects of iterative earthing on N line and PE line through the analysis on iterative earthing in earthing modes of TN systems,and discriminates iterative earthing from N-line iterative earthing.
通过对TN系统接地方式中对重复接地的简要分析,明确重复接地对N线和PE线的不同作用,并对重复接地是否是"N线重复接地"进行辨析。
补充资料:London-Eying-Polanyi-Sato PES(potential energy surface)
分子式:
CAS号:
性质:在LEP半经验方法基础上,佐藤(Sato)提出一个修正,引用了一个经验参数S,形成了LEPS方法,将势能计算方程改为VLEPS=Q+J(1+S2),计算中,三线态能3EXY=(QXY+JXY)/(1—S2),单线态能1EXY=(QXY+JXY)/(1+S2)。调节参数S,可获得特定势垒高度的合乎要求的势能面,即LEPS势能面,从而消除了鞍点区的盆地或小谷。F+Hz等体系的势能面与用从头计算所得理论势能面符合得相当满意。
CAS号:
性质:在LEP半经验方法基础上,佐藤(Sato)提出一个修正,引用了一个经验参数S,形成了LEPS方法,将势能计算方程改为VLEPS=Q+J(1+S2),计算中,三线态能3EXY=(QXY+JXY)/(1—S2),单线态能1EXY=(QXY+JXY)/(1+S2)。调节参数S,可获得特定势垒高度的合乎要求的势能面,即LEPS势能面,从而消除了鞍点区的盆地或小谷。F+Hz等体系的势能面与用从头计算所得理论势能面符合得相当满意。
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