2) nano-clay
纳米粘土
1.
Study on Nano-clay Toughened Epoxy Resin;
纳米粘土增韧环氧树脂的研究
2.
Based on a large amount of publications,the process of dispersing nano-clay into epoxy resin and preparation methods of nano-clay/epoxy composites in our country are introduced.
通过对大量文献的调研,介绍了国内纳米粘土的分散方法及其改性环氧树脂复合材料的制备方法,着重对影响纳米粘土改性环氧树脂复合材料性能的主要因素进行了综述。
3.
By orthogonal analysis, the nano-clay was the montmorillonite intercalated by HDTMAB, get across impact experiment make know, when feedback temperature 90℃、montmorillonite content 5%、 feedback time 2h was best condition.
采用正交方案,蒙脱石通过HDTMAB阳离子插层制备纳米粘土,冲击实验表明最佳条件为:反应温度90℃、矿浆浓度5%、反应时间2h。
3) Nanoclay
纳米粘土
1.
Research progress in preparation and application of nanoclay
纳米粘土的制备及应用研究进展
2.
At the present,nanoclay/polymer composites are the focus of research on materials science due to their superior properties.
纳米粘土 /聚合物复合材料因其具有优异的性能是目前材料科学研究的热点 。
4) porous clays
多孔粘土
1.
The results show that the synthesis conditions of porous clays, especially, the hydrolysed process of crosslinking agents, play a very important role in the influences in pore structure and pore size distributions of porous clays.
采用低温氮吸附法研究了多孔粘土复合材料的孔径分布和孔结构 ,讨论了不同交联物对材料孔结构和孔径分布的影响 ,结果表明 ,材料合成条件特别是交联物的水解过程对多孔粘土的孔结构和孔径分布有十分重要的影
2.
The impact of preparation conditions on the pore structure of porous clays was also discussed.
本文利用XRD、TEM等方法初步研究 2∶1型蒙脱石矿物及 1∶1规则间层的累脱石矿物与聚合羟基铝交联剂的层间交联作用 ,比较了不同制备条件下对形成含铝多孔粘土材料孔结构性质的影响。
5) porous clay
多孔粘土
1.
Titanium porous clays were synthesized by the reaction of Na-montmorillonite with Ti crosslinking agent prepared by sol-gel method.
采用sol-gel法合成了含Ti多孔粘土材料,并利用XRD、IR、DTA等方法对其实验条件进行初步探讨。
2.
The dilute solution of cross-linking agent is beneficial to the formation of porous clay; andthe process of cross-linking is rever.
本文利用XRD、IR等方法研究2:1型的蒙脱石粘土矿物和聚合羟基铝交联剂的层间交联作用,并对多孔粘土材料的形成条件及过程作初步探讨。
6) keramzit
有孔粘土
补充资料:第二孔(继发孔)型缺损
第二孔(继发孔)型缺损
ostium secondary defect
是心房间隔在形成上发生障碍,一般缺损较大,多在卵圆孔附近称第二孔(继发孔)型缺损。
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