Modification, preparation methods and application properties of nano mineral materials are discussed emphatically.
着重讨论了纳米矿物材料的改性加工和制备技术及其应用性能;
PP; nano-sized ATH; red phosphorus; surface modification; flame retardancy; mechanical property.
聚丙烯;纳米氢氧化铝;红磷;表面改性;阻燃性;力学性能。
So it may be concluded that nano materials will become popular in toughening modification of PVC in the future.
因此,可以得出这样的结论:纳米材料将成为聚氯乙烯增韧改性的一种重要方法,并得到广泛应用。
Characteristics of nano silica, dispersion, and modification thereof in coatings are introduced.
介绍了纳米硅基氧化物的特性及其在涂料中的分散、改性作用。
Modification, preparation methods and application properties of nano mineral materials are discussed emphatically. In addition, some problems in its development are inquired into.
着重讨论了纳米矿物材料的改性加工和制备技术及其应用性能;
This paper summarized the current progress on the use of nano particles and blending on modification of silicone rubber.
本文就纳米粒子在硅橡胶改性中的应用和硅橡胶并用改性方面的研究进展作一综述。
The invention discloses a preparation method of an azido blocking polymer and a method of the chemical modification of the azido blocking polymer for the surface of carbon nano tubes.
本发明公开了一种叠氮基封端的聚合物的制备方法及其对碳纳米管表面的化学修饰的方法。
The mechanochemical surface modification of two-dimension sericite flaky nano-materials was investigated through the grinding of a stirred mill.
使用搅拌磨湿法机械力化学方法对绢云母质二维纳米薄片材料进行了表面改性。
This paper discusses two modification methods of nano TiO2, inorganic surface modification and organic agent treatment, and suggests applications of modified nano TiO2.
介绍了纳米二氧化钛表面修饰的两种主要方法:无机和有机表面包覆,以及进行修饰后的纳米二氧化钛的应用。
So it may be concluded that nano-composite technology will become popular in toughening modification of PVC in future.
因此,可以得出这样的结论:纳米复合技术将成为聚氯乙烯增韧改性的一种重要方法,并得到广泛应用。
The method solves the defect of nano modification of inorganic or organic materials rather than the modification of living cells.
解决了无机或有机材料的纳米改性而非活体细胞的改性的缺陷。
The applications of nano particles for the modification of polymer properties were introduced in detail.
着重介绍了纳米粒子在改进聚合物力学、热学、电性能、光学性能等方面的应用。
Recent research advances in the toughness modification of epoxy resin by various inorganic nano-particles were systematically surveyed.
综述了近年来各种无机纳米粒子增韧改性环氧树脂的研究现状。
The dispersion of nano-HA in the matrix is influenced by the surface modification and processing method.
HA在基体中的分散受处理剂、处理方法和制备工艺路线的影响。
Surface-modification and assembly of nano-particles have received great attention in the past few years.
近年来,纳米材料表面的修饰和组装越来越受到关注。
The importance of surface modification and modification methods are briefly stated. And the preparation of core-shell nano-material is an important technique for surface modification.
简述了纳米微粒表面修饰的重要性以及修饰方法,并指出制备核壳型纳米材料是一种重要的表面修饰方法。
The basic properties, surface modification technology of nano-particles and the preparation of nano - modification coating are introduced.
本文叙述了纳米粒子的基本特性、表面改性技术、纳米粒子改性涂料的制备。
The surface modification and dispersion of nano-antibacterial powders, its compatibility with PET polymer and molding of PET matrix nano-antibacterial composite were discussed and investigated.
阐述了纳米抗菌材料与成纤聚合物(PET)复合材料的表面改性、分散、相容及成型;
The dispersed treatment solution containing nano-TiO_2 with size distribution ranging from 30 to(60 nm) and chitosan was prepared and applied to the modification treatment of the tussah silk fiber.
制备了粒径分布为30~60nm的纳米TiO2壳聚糖分散处理液,用该处理液对柞蚕丝进行改性,研究改性后柞蚕丝的结构与力学性能。
The recent research development of nano-sized CaCO3 on preparation, surface modification and its application were reviewed in this paper.
对纳米碳酸钙的制备、表面改性及其应用领域作了阐述。对纳米碳酸钙的应用前景进行了展望。
It was pointed out that toughening by non-elastomer materials broadened the research field for modification of polymers and toughening by nano-particle created a new study direction of the polymers.
指出非弹性体增韧拓展了高分子材料增韧改性研究的新领域;纳米粒子增韧开辟了高分子材料的研究新方向。
Synthesis of Functional Polymer Material, Fine Chemicals, Modification of Polymer Surface, Conductive Polymer and Nano Materials.
机能性高分子材料合成,特用化学品之合成,高分子表面之改质,导电性高分子材料及奈米材料。
The results showed that, after modification, the dispersity of nano-Si3N4 in NBR was improved;
结果表明,对纳米氮化硅进行改性可以改善其在NBR基体中的分散性;
It was pointed out that toughening by non-elastomer materials broadened the research field and toughening by nano-particle created a new direction for study on modification of PS.
非弹性体增韧拓展了PS增韧改性研究的新领域,纳米粒子增韧开辟了PS增韧改性研究的新方向。
It was pointed out that toughening by non-elastomer materials broadened the research field and toughening by nano-particle created a new direction for study on modification of PS.
非弹性体增韧拓展了PS增韧改性研究的新领域,纳米粒子增韧开辟了PS增韧改性研究的新方向。
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