嵌段型超分散剂PSE是一种新型、高效分散剂。
Hyperdispersant PSE is a novel kind of highly efficient amphiphilic diblock copolymers.
本文对超分散剂的分子结构特征、分子结构设计等进行了介绍。
The characteristics and designing of the hyperdispersant molecular structure are introduced in this paper.
介绍了ch超分散剂在酞菁绿表面处理过程中的作用机理、使用方法和使用效果。
Funtion mechanism, ways of use and effect of ch hyperdispersant to surface treatment of phthalocyanine green have been presented in the article.
以酞菁绿G、汉沙黄10G为原料,以超分散剂为改性剂,通过球磨制备电泳粒子。
The electrophoretic particles of phthalocyanine Green G and Hansa yellow 10G which were modified with hyperdispersants were prepared by ball milling.
研究了yb超分散剂改性滑石粉填充聚丙烯(PP)复合材料的流变行为及力学性能。
The rheological behavior and mechanical properties of PP composite filled with YB hyper-dispersant modified talc were studied.
本发明涉及一种聚酯型两亲性超分散剂及其制备方法,以满足固体颗粒在不同极性介质中分散的需要。
The invention relates to a polyester amphipathic hyper-dispersant and a preparation method thereof to satisfy the demand of dispersion of solid particles in different polar media.
对含取代氨端基的聚酯类超分散剂的合成方法进行了研究,并为获得适当长度的聚酯链选择了最佳合成条件。
A synthetic method for substituted amino-terminal group polyester hyperdispersants is researched and the optimum conditions for polyester chain with suitable length are chosen.
研究了高分子分散剂及低温处理在制备无团聚超细氧化锆粉末中的作用。
The effects of macromolecular dispersant and subzero treatment on the preparation of ultrafine non agglomerative zirconia powders have been studied.
通过比较选择聚丙烯酸钠为超细重质碳酸钙的最佳分散剂。
By comparison, polyacrylate sodium is an optimum dispersant for ultrafine ground calcium carbonate aqueous dispersions.
介绍了高速涂布对研磨碳酸钙(GCC)的要求、超细碳酸钙的研磨工艺流程,论述了在碳酸钙研磨中分散剂的选择。
This paper introduced the requirement of high-speed coating on the GCC, described the grinding technological process of ultrafine GCC and discussed the dispersant selection of GCC.
实验结果表明以聚丙烯酸钠为分散剂可制得固含量较高的超细重质碳酸钙水分散体系。
The experimental results demonstrate that high-solid-content ultrafine ground calcium carbonate aqueous dispersions can be obtained by employing polyacrylate sodium as dispersant.
现有分散剂存在抗温耐盐性能不能满足深井、超深井固井要求,有缓凝或起气泡副作用等问题。
The existing dispersants cannot meet the cementing requirements of deep and ultra-deep wells, having low temperature tolerance, low brine resistance, retarding, bubbling, and some other problems.
采用化学还原法,以抗坏血酸为还原剂,明胶为分散剂制备了球形超细银粉。
Using ascorbic acid as reducing agent and gelatin as dispersant, the spherical ultra-fine silver powder was synthesized by the chemical reduction method.
采用化学还原法,以抗坏血酸为还原剂,明胶为分散剂制备了球形超细银粉。
Using ascorbic acid as reducing agent and gelatin as dispersant, the spherical ultra-fine silver powder was synthesized by the chemical reduction method.
应用推荐