Basic Info.
Model NO.
cationic anionic Nonionic
Grade Standard
Industrial Grade
Product Description
Polyacrylamide Names and IdentifiersName:Poly(acrylamide) Synonyms:PAM Polyacrylamide Poly(acrylamide) Acrylamide resin anionic polyacrylamide Cationic Polyacrylamide Acrylamide gel solution non-ionic polyacrylamide Polyacrylamide,hydrolyzed yacrylamide dry powder,non-ionic Polyacrylamide dry powder,cationic CAS:9003-05-8 | |
CATALOGUE OF PAM |
ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF HYDROLYSIS |
A2001 | Anionic Polyacrylamide(solid content 89%min) | 900 | 4-5% |
A2002 | 1000 | 1-2% |
A2003 | 1100 | 30% |
A2004 | 1600-1700 | 11-13% |
A2005 | 1700-1800 | 18-20% |
A2006 | 1700-1800 | 20-22% |
A2007 | 1800-1900 | 23-25% |
A2008 | 1800-2000 | 24-26% |
A2009 | 1800-2000 | 24-26% |
A2010 | 1400-1600 | 27-30% |
A2011 | 1800-2000 | 27-29% |
A2012 | 3000-3500 | 28-35% |
A2013 | 2500-3000 | 25-30% |
ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF IONICITY |
C6005-H | Cationic Polyacrylamide(solid content 89%min) | 1000-1200 | 5% |
C6010-H | 1000-1200 | 10% |
C6015-H | 1000-1200 | 15% |
C6020-H | 1000-1200 | 20% |
C6025-H | 1000-1200 | 25% |
C6030-H | 1000-1200 | 30% |
C6035-H | 1000-1200 | 35% |
C6040-H | 1000-1200 | 40% |
C6045-H | 1000-1200 | 45% |
C6050-H | 1000-1200 | 50% |
C6060-H | 1000-1200 | 60% |
C6070-H | 1000-1200 | 70% |
C6080-H | 1000-1200 | 80% |
C6005-L | Cationic Polyacrylamide(solid content 89%min) | 800-900 | 5% |
C6010-L | 800-900 | 10% |
C6015-L | 800-900 | 15% |
C6020-L | 800-900 | 20% |
C6025-L | 800-900 | 25% |
C6030-L | 800-900 | 30% |
C6035-L | 800-900 | 35% |
C6040-L | 800-900 | 40% |
C6045-L | 800-900 | 45% |
C6050-L | 800-900 | 50% |
C6060-L | 800-900 | 60% |
C6070-L | 800-900 | 70% |
C6080-L | 800-900 | 80% |
ITEM | PRODUCTS | | DEGREE |
EC7001 | Emulsion Cationic Polyacrylamide | | 20% |
EC7002 | Emulsion Cationic Polyacrylamide | | 30% |
EC7003 | Emulsion Cationic Polyacrylamide | | 40% |
EC7004 | Emulsion Cationic Polyacrylamide | | 60% |
EC7005 | Emulsion Cationic Polyacrylamide | | 80% |
EA8001 | Emulsion Anionic Polyacrylamide | | |
Polyacrylamide Names and IdentifiersName:Poly(acrylamide) Synonyms:PAM Polyacrylamide Poly(acrylamide) Acrylamide resin anionic polyacrylamide Cationic Polyacrylamide Acrylamide gel solution non-ionic polyacrylamide Polyacrylamide,hydrolyzed yacrylamide dry powder,non-ionic Polyacrylamide dry powder,cationic CAS:9003-05-8 | |
Appearance | MOLECULAR WEIGHT(million) | Solid content | PH Value | Dissolving time |
White powder | ≥16 | ≥88 | 6-8 | ≤50 |
The application of PAM as a paper strength additive requires careful dosage and optimization to achieve the desired paper properties. It is important to consider factors such as paper grade, production process, and end-use applications when selecting and using PAM. Adherence to industry regulations and guidelines for the safe handling, storage, and disposal of PAM is crucial to ensure environmental sustainability.
1. Surface Sizing Enhancement:
Polyacrylamide (PAM) is utilized as a surface sizing agent in the paper industry to enhance the water resistance and printability of paper. When applied to the paper surface, PAM forms a thin film that reduces the paper's porosity and improves its ability to repel liquids. This surface sizing effect leads to improved ink holdout, print quality, and overall surface properties of the paper. PAM helps to prevent ink penetration and feathering, resulting in sharper and more vibrant printed images.
2. Retention and Drainage Improvement:
PAM plays a crucial role in improving the retention and drainage properties of the papermaking process. It aids in the retention of fine particles and fibers in the paper stock, preventing their loss during the formation of the paper sheet. By enhancing the retention of fibers, fillers, and other additives, PAM helps to improve the uniformity and formation of the paper. It also improves the drainage of water from the paper stock, reducing drying time and energy consumption.
3. Flocculation and Fiber Bonding:
PAM acts as a flocculant, bringing together suspended particles and fibers in the paper stock to form larger aggregates. This flocculation process improves the bonding between the fibers, resulting in increased tensile strength, tear resistance, and stiffness of the paper. The larger aggregates formed by PAM facilitate better fiber bonding, leading to improved overall paper strength and performance.
Address:
Yangzhou, Jiangsu, China
Business Type:
Manufacturer/Factory
Business Range:
Chemicals, Health & Medicine
Company Introduction:
Zoomri is a professional supplier in sustainable chemical solutions for pulp & paper, water treatment, Oil & gas, Mineral industry, Power battery recycling and photoinitiator industry. We provide best suited products and expertise to improve our customers′ product quality, process and resource efficiency. We have been in this field for 10 years and export more than 400, 000 tons of our products over 30 countries, including the EU, the USA, South America, Southeast Asia, the Middle East and Africa. We built and invested two modern chemical plants in the past 10 years.