以合成的木质素基环氧树脂为基体,蒙脱土为增强材料,采用插层复合法制备了酶解木质素基复合材料。
Based on the resin with the montmorillonite as reinforcing material, the lignin-based composite material was acquired by the intercalation compounding method.
实验结果表明:添加石墨对材料的力学性能、电学性能有所提高,石墨的微孔结构有助于原位插层复合反应的进行。
The results show mechanic properly and electrical conductivity are improved by filling graphite, graphite is beneficial to the layer to put the proceeding to reunite the reaction.
首先,通过在复合材料层片间引入障碍插层的方法进行复合材料振动阻尼性改进的尝试。
An attempt to improve the vibration damping of this material was first performed by introducing compliant interlayers between composite plies.
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.
并指出插层法为酚醛树脂纳米复合材料的制备开辟了新的途径。
A new way is developed for the preparation of the phenolic resin nanocomposite with the intercalated method.
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.
然后通过插值将结果向下一尺度低频图像传递,并利用尺度间形状约束和边界约束复合acm进一步细化曲线,使其符合局部图像特征,如此逐层重复直至原始图像。
Then the result is interpolated into the next finer level of approximation image as a initial contour, and evolved with edge based and inter scales shape constrained ACM.
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.
采用原位插层聚合法制备PU/有机蒙脱土(OMMT)纳米复合材料。
PU/organomontmorillonite nano-composite(OMMT) was prepared by in-situ intercalative polymerization.
利用插层聚合合成了环氧丙烯酸酯/蒙脱土复合光固化树脂,并采用紫外光固化制备了环氧丙烯酸酯/蒙脱土纳米复合材料。
The ultraviolet-cured epoxy-acrylate/montmorillonite(EA/MMT) hybrid was synthesized by intercalation polymerization, and prepared into a novel nanocomposite material via UV-curing process.
利用插层聚合合成了环氧丙烯酸酯/蒙脱土复合光固化树脂,并采用紫外光固化制备了环氧丙烯酸酯/蒙脱土纳米复合材料。
The ultraviolet-cured epoxy-acrylate/montmorillonite(EA/MMT) hybrid was synthesized by intercalation polymerization, and prepared into a novel nanocomposite material via UV-curing process.
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