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1)  PAMAM-1,2-octenoxid
聚酰胺胺-1,2-环氧辛烷
1.
Synthesis of PAMAM-1,2-octenoxid dendrimer and its property as carrier in emulsion liquid membrane;
聚酰胺胺-1,2-环氧辛烷树状大分子的合成及其作为乳化液膜载体的性能
2)  polyaminoamide-epichlorohydrin
聚酰胺聚胺环氧氯丙烷
1.
The repulping experiments of polyaminoamide-epichlorohydrin(PAE) and glyoxal-acrylamide copolymer (PAMG) wet strengthened brokes were carried out respectively.
对聚酰胺聚胺环氧氯丙烷树脂(PAE)、乙二醛聚酰胺树脂(PAMG)等2种湿强损纸进行了再制浆实验;实验表明:乙二醛聚酰胺湿强树脂再制浆工艺简单、且无毒,对湿强度要求不高、用后就丢弃的生活用纸,该湿强树脂为一良好的选择。
3)  PAE
聚酰胺多胺环氧氯丙烷
1.
As the practical application,it is necessary to add the PAE can be used as the special retention aid for the cationic rosin sizing.
叙述了阳离子分散松香胶的应用 ,在近中性施胶时加一种能使松香胶沉淀并固定于纤维上的留着剂 ,实验结果表明聚酰胺多胺环氧氯丙烷 (PAE)比阳离子淀粉有很好的施胶效
2.
This paper discussed the impact of factors such as the time of temperature rising, the amount of water added, on the synthesis of PAE intermediate, and found suitable synthesis conditions for the intermediate.
讨论了升温时间和加水量等主要因素对聚酰胺多胺环氧氯丙烷树脂(PAE)中间体合成的影响,并找到比较合适的条件。
3.
Cationic crosslinking blocked polyurethane(BPU)/ PAE sequential interpenetrating polymer networks (BPU/PAE IPNs) were prepared by the reaction of polyaminamide and epihalohydrin in the medium of cationic crosslinking blocked polyurethane.
以对羟基苯甲酸甲酯(MPHB)封闭的阳离子交联聚氨酯为反应介质,聚酰胺多胺和环氧氯丙烷进行反应制备出阳离子封闭聚氨酯(BPU)/聚酰胺多胺环氧氯丙烷(PAE)顺序互穿聚合物网络(BPU/PAE)。
4)  polyamide epichlorohydrin (PAE)
聚酰胺环氧氯丙烷(PAE)
5)  polyamide epichlorhydrin resin modified by rosin
聚酰胺环氧氯丙烷树脂
1.
The preparation of polyamide epichlorhydrin resin modified by rosin (PAE-R) and its application in paper surface sizing were studied.
探讨了松香改性聚酰胺环氧氯丙烷树脂的制备及其对纸张表面施胶性能的影响,并利用红外图谱和DSC对其结构进行了表征。
6)  polyepoxypropane phosphate amide
聚环氧丙烷膦酸酯酰胺
1.
The result shows that polyepoxypropane phosphate amide possesses excellent detergent and reaches advanced level in the world.
结果表明 ,聚环氧丙烷膦酸酯酰胺 ,具有优良的抗积炭及洁净性能 ,对比试验证明与当今世界同类产品技术水平相
补充资料:五环辛烷
分子式:
CAS号:

性质:又称五环[4.2.0.02.5.03,8.04,7]辛烷(pentacyclo[4.2.0.02,5.03,8.04,7]octane)。无色晶体。熔点130~131℃。它的八个碳原子位于立方体的顶点,互以单键相连,是一种笼形结构,张力很高的五缩环体系。在催化剂作用下,容易发生异构化。由环丁二烯为原料,与2,5-二溴对苯醌发生2+4环加成;所得加成物在紫外光作用下再发生2+2环加成;然后在氢氧化钾作用下得立方烷-1,3-二羧酸,脱羧即得本品。本化合物的合成在有机合成史上具理论意义。

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