例句與造句

1. Study of influence of cross - linking agent preparation on property of pillared montmorillonite
   鈦交聯(lián)蒙脫石納米復(fù)合材料的合成與物理性能
2. It has been studied that the effect of component , cross - linking agent pg and dvb and initiating agent bpo on mechanical properties of pu ( based polyether ) / ps ipns
   研究了組成、交聯(lián)劑pg和dvb以及引發(fā)劑bpo對(duì)基于聚醚pu用s互穿網(wǎng)絡(luò)聚合物材料力學(xué)性能的影響。
3. But when the content of the cross - linking agent is 1 ~ 3 % , it is suitable . when its use level is too much , the performance of coating is greatly reduced because of too much cross linkage
   但交聯(lián)劑有一合適的用量( 1 3 ) ，當(dāng)交聯(lián)劑用量過大時(shí)，由于過度交聯(lián)，反而使涂料性能明顯降低。
4. The investigation showed that nanofiltration membrane with good character can be made when concentration of coating solution is 1 % - 2 % , coating time is 1 hour , concentration of cross - linking agent is 0 . 5 % and cross - linking time is 5 hours
   研究表明涂層液濃度在1 2 ，浸涂時(shí)間1h ，交聯(lián)劑濃度為0 . 5 ，交聯(lián)時(shí)間5h的條件下可以得到性能較好的納濾膜。
5. We selected styrene as monomer , diethylene glycol dimethacrylate as cross - linking agent . the copolymerization technique was used in preparing the probe . the ph fluorescent indicator was immobilized in the probe as the sensitive element
   我們選擇苯乙烯為聚合單體，雙甲基丙烯酸一縮二乙二醇酯為交聯(lián)劑，采用交聯(lián)共聚技術(shù)制備氨多孔塑料傳感探頭，并將ph熒光指示劑固定于共聚體中作為氨的敏感元素。
6. It's difficult to find cross-linked agent in a sentence. 用cross-linked agent造句挺難的
7. The article is focused on the modification studies of chitosan ultrafiltrating compound membrane ( cs compound membrane ) on the basis of preceding researches . it includes adding cross - linking agent , modification agent , acylation agent in the casting membrane solution . the result shows that the new modification membrane are better in the phychemical properties and separation properties
   本文是在前面研究的基礎(chǔ)上，著重進(jìn)行了聚氨基葡糖復(fù)合超濾膜(簡(jiǎn)稱cs復(fù)合膜)的改性研究.通過從交聯(lián)劑、改性劑、乙?；噭┑确矫娴母男詠韺で笞罴训蔫T膜液配方.結(jié)果表明，改性后的膜能達(dá)到較好的物化性能和分離性能
8. Pdmaema can be cross - linked by quaternization to develop a positively charged dense network structure . according this mechanism , pdmaema / psf positively charged nanofiltration membrane was developed by interfacial polymerization using psf plate macrofiltration membrane as support layer , pre - polymer of pdmaema water solution as coating solution , p - xylylene dichloride / heptane as cross - linking agent
   根據(jù)這一機(jī)理，以psf平板微孔膜為基膜， pdmaema預(yù)聚物水溶液為涂層液，以對(duì)二氯芐正庚烷溶液為交聯(lián)劑，采用界面聚合法制備了pdmaema psf荷正電復(fù)合納濾膜。
9. The results indicated that montmorillonite was intercalated by polyacrylic acid molecular . section two : preparation of polyacrylic acid / acrylamide / montmorillonite ( paa / am / mmt ) water absorbent hybrid by aqueous solution intercalated polymerization high water absorbent polyacrylate copolymer was prepared by aqueous solution intercalated copolymerization . in this reaction , the monomers were the partially neutralized acrylic acid ( aa ) and acryl amide ( am ) ; the cross - linking agent was diacryl ethylene ( egda )
   第二節(jié)溶液插層共聚制備聚丙烯酸鹽/丙烯酰胺/膨潤(rùn)土雜化吸水材料及其性能研究首次利用溶液插層共聚制備了二丙烯?；叶减ィ?egda ）交聯(lián)的聚丙烯酸鹽/丙烯酰胺/膨潤(rùn)土（ paa / am / mmt ）雜化吸水材料。
10. In the second part , we studied the plastic porous probe for ammonia measurement , which was made by methyl methylacrylate . we selected methyl methylacryte ( mma ) as the monomer , diethylene glycol dimethacrylate ( dgdm ) as cross - linking agent and toluene as the inert solvent . the probe was prepared by a copolymerization technique
    第二部分為以甲基丙烯酸甲酯為單體的多孔塑料光纖傳感探頭的研究，在這一部分里，我們以甲基丙烯酸甲酯為單體，雙甲基丙烯酸一縮二乙二醇酯為交聯(lián)劑，以甲苯為致孔劑，采用交聯(lián)共聚技術(shù)制備氨多孔塑料光纖傳感探頭，并將ph熒光指示劑藻紅固定于共聚體中。
11. Technique and condition of developing membrane such as thickness of support layer , concentration of coating solution , coating time , ph value of coating solution , concentration of small molecular additive in coating solution , concentration of cross - linking agent , cross - linking time and composite times were studied
    對(duì)制膜工藝條件如基膜厚度、涂層液濃度、浸涂時(shí)間、涂層液ph值、涂層液中小分子添加劑的含量、交聯(lián)劑類型、交聯(lián)劑濃度、交聯(lián)時(shí)間及復(fù)合次數(shù)對(duì)納濾膜性能的影響進(jìn)行了研究。
12. The results showed that : ( d the use level of the cross - linking agent had a great effect on the character of the probe ; the volume was too small , it would result in pr oducing impermanent pores ; and the volume was too large , the result showed that the structure of the probe was tight , and the amount of pores were less , it would influenced the probe ' s sensibility
    結(jié)果表明：交聯(lián)劑的用量對(duì)探頭性質(zhì)影響較大：過少，產(chǎn)生的孔洞容易塌陷，過多則結(jié)構(gòu)緊密，形成的孔洞較少，影響氨氣與指示劑的充分反應(yīng)。致孔劑過多，指示劑損失嚴(yán)重；過少，生成的孔洞較少，氣體難以完全進(jìn)入探頭內(nèi)部，不利于靈敏度的提高。
13. Starch nanoparticles ( sn ) have been prepared with w / o starch microemulsion as microreader and epichlorohydrin as cross - linking agent . the factors affecting the preparation of sn have been investigated via the characterization of tem . the results show that the size and size distribution of sn are mainly controlled by the interfacial strength of microreactor , and the interfacial strength of microreactor is chiefly influenced by w value ( the molar ratio of water / surfactant ) and concentration of starch
    利用所得到的w o型淀粉微乳液作為微型反應(yīng)器，以環(huán)氧氯丙烷為交聯(lián)劑制備出淀粉納米粒，并借助透射電鏡的表征研究了各制備因素的影響，研究結(jié)果表明：淀粉納米粒的粒徑及粒度分布主要受微型反應(yīng)器的界面強(qiáng)度控制，而影響界面強(qiáng)度的因素主要是r值(即水與表面活性劑的摩爾比值)及淀粉液濃度。
14. Making sensitive material : made in non - sulfur vulcanization system with the formula : epdm 100kg , dicumylperoxide ( dcp ) 2kg as cross - linking agent , stearic acid 1kg as processing aid , oxidized zinc ( zno ) 3kg as accelerant , wax oil 10kg as lubricant ; and made in vulcanizing condition : vulcanizing temperature 170 c , vulcanizing time 15minutes , vulcanizing pressure 3 mpa , the vulcanized epdm is optimal sensitive material for petrol . the sensing head equipped with the vulcanized rubber possesses two qualities : better swelling response and better anti - interfere against temperature variation
    敏感材料的制備：用無(wú)硫硫化體系；配方為：生膠100kg ， dcp2kg ，硬脂酸1kg ， zno3kg ，石蠟油10kg ；硫化條件：硫化溫度170 ，硫化時(shí)間15分鐘，硫化壓力3mpa ，制備的硫化橡膠對(duì)汽油的監(jiān)測(cè)較理想，用其裝備的傳感頭不僅有較好的溶脹響應(yīng)性能，而且有很好的抗溫變干擾能力。