1.
Research on Anion Inorganic Particles in the Retention and Drainage Systems
阴离子无机微粒助留助滤体系的研究
2.
Application of Silica/Aluminum Microparticle Retention and Drainage Aid System in Bleached Wheat Straw Pulp
硅铝微粒助留助滤系统在漂白麦草浆中的应用
3.
Study on New Type of Microparticle Retention and Drainage Aid System
新型微粒助留助滤剂的研发和应用机理研究
4.
Study on Synthesis and Application of Silica-Aluminum Microparticle Retention and Drainage Agent;
新型硅铝微粒助留助滤剂的制备及应用
5.
Neutral Modification of Bentonite and Its Microparticle Retention and Drainage Effect;
膨润土的中性改性及其微粒助留助滤效果
6.
Application of Modified Bentonite and CPAM Microparticulate Retention and Drainage Aid System in Paperboard Manufacture
CPAM/改性膨润土微粒助留助滤体系的应用研究
7.
Studies on a New Nonionic Microparticle Retention System and Its Retention Mechanism;
新的非离子型微粒助留助滤体系及其机理的研究
8.
Research on Filtration Effect of Ultra-fine Slime with Chemical Filter-aids
化学助滤剂对微细粒煤泥的助滤作用研究
9.
Mechanism of the Ternary Polymer Retention System in High Yield Pulp
三元微粒助留体系对高得率浆助留机理的研究
10.
Study on the Preparation of Amphoteric-Polyacrylamide-Based Papermaking Retention and Drainage Aid via Inverse-Microemulsion Polymerization;
反相微乳液制备两性聚丙烯酰胺造纸助留助滤剂的研究
11.
Application of Bentonite-based Dual Retention and Drainage System
膨润土双元助留剂在助留助滤系统中的应用
12.
Flocculation Induced by Magnesium Aluminum Hydroxides Based Microparticle Retention Systems;
氢氧化镁铝类微粒助留系统的絮聚作用
13.
Synthesis and application of a new-type copolymer for filter aids on fine clean coal
新型助滤剂的合成和对细粒煤助滤的应用研究
14.
The study of a CPAM/bentonite/anionic promoter three-component micropartical retention aid system
阳离子聚丙烯酰胺/膨润土/阴离子促进剂三元微粒助留系统探讨
15.
Retention and Drainage Aid Effect of Cationic Polyacrylamide/Bentonite System
阳离子聚丙烯酰胺/膨润土体系的助留助滤性能
16.
Retention and Drainage Mechanism of Amphoteric Polyacrylamide in Pulp Slurry Suspension;
纸料中两性聚丙烯酰胺的助留助滤作用机理
17.
Study on the Properties of Polyvinylamine (PVAm) on Retention and Drainage of the Pulps Added with CaCO_3;
聚乙烯胺在加填CaCO_3造纸中助留助滤性能的研究
18.
Drainage and Retention and Strengthening Effects of Enzymes in Papermaking
酶在纸浆抄造过程中的助滤助留和增强作用