结合热力学和动力学的分析,概括了熔融插层法一些理论上的研究进展。
Based on thermodynamics and kinetics analyse, some research achievements in theory a-bout melting intercalation are summarized.
根据插层机理和方法的差别,插层法主要分为溶液插层和熔融插层两类。
According to different intercalation mechanism and intercalation ways, the intercalation methods are majorly classified into two categories, solution intercalation and melt intercalation.
采用熔融插层法制备SBS 4402/有机蒙脱土(OMMT)纳米复合材料。
The melting intercalation method is used to produce SBS 4402/organic montmorillonite (OMMT) nano composite material.
利用熔融插层法将有机蒙脱土引入环氧树脂体系,制备出含有纳米分散蒙脱土的无溶剂环氧涂料。
The title coatings has been prepared by use of melting intercalation technology to introduce the OMMT into epoxy resin system.
首先通过熔融插层法制备了HDPE/MMT复合阻燃材料和煤改性HDPE/MMT 复合阻燃材料。
Firstly HDPE/MMT flame retardant composites and coal modified HDPE/MMT flame retardant composites are prepared through melt intercalation method.
介绍了影响PCN结构形态的几种因素;对熔融插层法制备pcn的热力学、动力学的研究进行了总结;介绍了熔融插层的机理和几种理论模型。
All factors affecting the structure of PCN, the mechanism and some theoretical models of melt intercalation are introduced, and the thermodynamics and kinetics of melt intercalation are summarized.
蒙脱土特殊的层状结构使得利用熔融共混在机械力的作用下插层到纳米级复合材料成为可能。
The lamellar structure of montmorillonite makes it possible to intercalate PA 6 into the nanocomposites under the action of mechanical force during the melt blending process.
蒙脱土特殊的层状结构使得利用熔融共混在机械力的作用下插层到纳米级复合材料成为可能。
The lamellar structure of montmorillonite makes it possible to intercalate PA 6 into the nanocomposites under the action of mechanical force during the melt blending process.
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