聚乙烯的 的英文怎麼說
中文拼音 [jùyǐxīde]
聚乙烯的
英文
polyvinyl-
Skin protection : nit rile / polyethylene gloves, coveralls, avoid cotton product
皮膚保護:使用聚乙烯的手套,避免棉織的。Application of super high molecular weight polyethylene
超高分子質量聚乙烯的應用Pyrolysis experiment of low density polyethylene
低密度聚乙烯的熱解試驗研究Ultrahigh molecular weight polyethylene modeling process and modification
超高分子量聚乙烯的成型工藝及改性研究進展The result showed that ( 1 ) organic modifier can reduce the polarity of na - bentonite, and compatilizer ( maleic anhydride grafted polyethylene ) can strengthen the polarity of polyethylene and the interface compatibility between polyethylene and bentonite. when the number of methylene groups in alkylamine was larger than 16, the intercalation nanocomposites were obtained
研究結果表明, ( 1 )有機改性劑能夠降低鈉基膨潤土的極性,相容劑(馬來酸酐接枝聚乙烯)對增強聚乙烯的極性,增強聚乙烯和膨潤土的界面相容性有很大作用。The crystallization and melting behavior of mellocene - catalized branched and linear polyethylenes of low molecular weight was studied. it was found that the crystalline lattice of branched polyethylene is larger than that of linear polyethylene because of the existence of branched chains. the melting behavior of branched polyethylene is similar to that of linear polyethylene since the branched chains can not enter the lattice. however, the crystalline behavior of low molecular weight branched polyethylene is the same as that of high molecular weight linear polyethylene, but different with that of low molecular weigh linear polyethylene. kinetics theory analysis evidenced that the transition temperature of growth regime of the branched polyethylene is about 20 lower than that of linear polyethylene with the same molecular weight. it may be attributed to the existence of short branched chains
研究了金屬茂催化的低分子量支化聚乙烯和線性聚乙烯的結晶及熔融行為,發現支化聚乙烯的結構與線性聚乙烯相同為正交結構,但晶格略有膨脹.支鏈的存在對熔融行為影響不大,兩種聚乙烯的熔點均隨結晶溫度的升高而非線性增加,表現出低分子量樣品的共同特徵.但支鏈的存在對結晶行為卻有很大的影響,主要是由於支鏈的存在降低了晶體的結晶速率從而影響結晶過程,使得低分子量的支化聚乙烯的結晶行為與高分子量線性聚乙烯的結晶行為相似而與低分子量的線性聚乙烯不同.動力學分析表明,低分子量的支化聚乙烯的結晶生長方式的轉變溫度比同等分子量的線性聚乙烯降低了約20Results of study show that inception voltage of electrical tree, breakdown voltage, environmental stress cracking, tensile strength and elongation at break of low density polyethylene are improved after grafting
研究結果表明:接枝聚硅氧烷后,改性的低密度聚乙烯的樹枝引發示性電壓、擊穿場強、耐環境應力開裂性、拉伸強度及斷裂伸長率都得到提高。According to above results we testify that the long branchs of ldpe play an important role in ameliorating mpe and smpe ' s flowing performance
由此我們證實ldpe分子中的長支鏈對于改善兩種茂金屬聚乙烯的流動性起到重要作用。Morphological structure analysis indicates that the addition of pe - mah induces surface tension, makes phases uniformity, enhances bonding strength of interface and improves compatible property
Sem分析表明,接枝物的加入,降低了界面間的表面張力,使兩相分散均勻,分散度提高,增強了相間的粘接力,改善了尼龍11與聚乙烯的相容性。Tsc and tl studies on polyethylene aged by electrical stress
電老化聚乙烯的熱激電流和熱釋光研究The high toughness research of non - halogen flame retardant ldpe
無鹵阻燃低密度聚乙烯的增韌研究Domestic polythene production actuality and development foreground
我國聚乙烯的生產現狀與發展前景This order shall be packed in cartons with polyethylene tops
這批貨的包裝是用頂部帶有聚乙烯的紙箱。Production, application and development prospect of crosslinked polyethylene
交聯聚乙烯的生產應用及發展前景Standard specification for selection of porous polyethylene for use in surgical implants
外科植入物用多孔聚乙烯的選擇For xlpe insulated power cable, either chemical method or physical method is employed to transform the molecular structure of pe from chain into three - dimensional network, i. e. thermoplastic pe is transformed into thermosetting xlpe. after cross - linking, the thermal and mechanical properties of pe have been greatly improved while its excellent electrical property are still retained
交聯聚乙烯絕緣電力電纜是採用化學方法或物理方法,使聚乙烯分子由線形分子結構轉變為三維網狀結構,由熱塑性的聚乙烯變成熱固性的交聯聚乙烯,從而提高了聚乙烯的耐老化性能、機械性能和耐環境能力,並保持了優良的電氣性能。Upon searching two containers with relevant documents which claimed to have contained " low density polyethylene " destined for fuyong in shenzhen, a large quantity of suspected unmanifested cargoes were found concealed behind some bags of polyethylene
根據有關文件,船上兩個貨櫃報稱載有低密度聚乙烯,目的地為深圳福永,但執法人員于載有聚乙烯的袋后發現大批懷疑沒有載貨紙的貨箱。Studies on ticl4 ni 2 l supported complex catalysts for ethylene polymerization to produce branched polyethylene
配體復合催化劑催化乙烯聚合制備支化聚乙烯的研究Metallocene branched polyethylenes prepared by oligomerization catalysts at different ratio vary in physical properties, and the ratio of cocatalyst to oligomerization catalyst of 8. 72 : 1 gives good physical properties and processing properties
以不同配比齊聚共聚催化劑聚合的茂金屬支化聚乙烯的基本物性不同,當共聚齊聚催化劑配比為8 . 72 : 1時,基本性能和加工性能較好。Basic properties of various polyethylene polymerized by metallocene catalysts and various branched polyethylene polymerized by oligomerization cocatalysts were researched, and the results show that metallocene branched polyethylene polymerized by oligomerization cocatalysts have high molecular weight, broad molecular weight distribution, and good tensile properties compared to metallocene - based polyethylenes prepared using mono - metallocene and bi - metallocene catalysts
摘要研究了不同茂金屬催化劑聚合的茂金屬聚乙烯及不同齊聚共聚催化劑聚合的茂金屬支化聚乙烯的基本性能,結果表明:以齊聚共聚催化劑體系的茂金屬支化聚乙烯比以單、雙茂金屬催化劑的茂金屬聚乙烯相對分子質量高、相對分子質量分佈寬,拉伸性能優良。分享友人