层状硅酸盐
例句与用法
- The mechanical property of rubber / layered silicates nanocomposites was improved obviously , and at the same content of fillers , the mechanical property of nanocomposites was higher than that of carbon black reinforced rubber
橡胶/层状硅酸盐纳米复合材料的力学性能得到了明显的提高,在相同填充剂用量下,纳米复合材料力学性能明显高于炭黑补强胶料的力学性能。 - The research now mainly concentrate on polymer / montmorillonite nanocomposites . having typical layered structure , kaolinite and montmorillonite are all ideal host minerals for preparing polymer / layered silicate nanocomposites by intercalation composite method
高岭土与蒙脱土同属于层状硅酸盐,两者都具有典型的层状结构,是用插层复合法制备聚合物层状硅酸盐纳米复合材料理想的主体矿物。 - The unstable stacking of layers of org - mmt was easily damaged under force and heat . hence , it is very important to decide the process temperature for preparing the composites , and it was found that 200 was a upper limitation of temperature
由于在高热( 200以上)或强机械剪切作用下,蒙脱土层状堆叠结构会坍塌,导致不能与聚合物分子作用生成聚合物?层状硅酸盐纳米复合材料,因此熔融插层的温度选择显得十分重要。 - Due to the special effect of the nanometer - size particles , the nanocomposites often exhibit remarkably improved properties . nowadays , among all the potential nanocomposites , polymer / layered silicate ( pls ) nanocomposites have attracted intensive interest from academic and industrial researchers
目前在聚合物纳米复合材料领域中,无论是基础研究还是工业开发都十分活跃的是聚合物厂层状硅酸盐( polymer layeredsilicate , pls )纳米复合材料。 - In this research , the factors which influence the intercalation and exfoliation of layered silicates have been analyzed . the dispersion of layered silicates into rubber and the mechanism of improving mechanical properties of rubber due to the addition of layered silicates have been theoretically analyzed
本课题结合研究结果,分析了制备纳米复合材料过程中影响层状硅酸盐插层和剥离的主要因素,对层状硅酸盐在橡胶基体中的分散机理和增强机理进行了理论分析。 - In this research , several rubber / layered silicates nanocomposites have been prepared by extruding . organic layered silicates were prepared in our lab . the preparation technology and the relationship between micro - structure and property of nanocomposites have been studied
本课题运用自制的改性层状硅酸盐,通过挤出插层复合法与橡胶进行复合,制备了多种橡胶/层状硅酸盐纳米复合材料,并深入探讨了纳米复合材料的配方及制备工艺、亚微观形态和性能之间的关系。 - However , most of those flame retardants will reduce the other properties of materials at the same time . to overcome this drawback , a reactive flame retardant , which was incorporated in the main chain of pet , was used and an intercalative polymerization to layered silicates was conducted so as to prepare novel flame - retardant copolyesters / layered silicate nanocomposites
为了克服这一缺点,我们在引入一种反应型含磷阻燃剂的同时,通过插层聚合的方法合成了一种新型的聚合物材料:主链含磷阻燃共聚酯层状硅酸盐纳米复合材料,以期在提高聚合物阻燃性的同时,亦改善材料的其它性能。 - The results of comparison showed that when the content of fillers was from 3 to 10 parts , the mechanical property of nbr / layered silicates nanocomposites is higher than that of carbon black reinforced rubber . the tensile strength of nanocomposites was 1 . 84 times of carbon black reinforced rubber , and the tear strength was 1 . 49 times
研究结果表明:当层状硅酸盐的用量在3 - 10份范围内时, nbr /层状硅酸盐纳米复合材料的力学性能远远高于同量炭黑补强胶料的力学性能,拉伸强度最高是炭黑补强胶料的1 . 84倍,撕裂强度最高是炭黑补强胶料的1 . 49倍。 - The result of transmission electron microscope ( tem ) showed that layers of layered silicates were exfoliated and dispersed in matrix homogeneously . according to statistical data , average thickness of layers was lonm , and the thickness of the biggest layers was less than 40nm , only a few layers were exfoliated in monolayer whose thickness was about inm
透射电子显微镜( tem )照片显示:层状硅酸盐片层发生剥离,片层均匀分散在nbr基体中,统计表明片层的平均厚度约为10nm ,最大的聚集体的片层厚度达到40nm ,推断有一小部分片层剥离成单晶层的形式,厚度为1nm 。 - The author generalized the principles , characteristics and applications of traditional methods . and several kinds of preparation methods of nanocompsites via nanophase reactor ( reverse microemulsion , multipores material and layer silicate ) were represented detailed . their principles , characteristics and applications were introduced , the advantage and disadvantage of this method were also generalized contrasted with traditional methods
详细阐述了利用纳米反应器制备纳米复合材料的几种方法(反相微乳液、多孔材料和层状硅酸盐)的机理、特点和应用,并对比了传统制备纳米复合材料的方法和利用纳米反应器制备纳米复合材料方法的优缺点。