| Customization: | Available |
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| CAS No.: | 9003-05-8 |
| Formula: | (C3h5no)N |
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| What is Anionic polyacrylamide (CPAM) ? |
| Polyacrylamide various percentages can be dissolved in water, especially when the concentration is higher than '70% more that are water-soluble polymers. Molecular Weight does not seem to affect the solubility of water, but the high molecular weight polymer at concentrations exceeding 10% will form a gel-like structure. This is due to the formation of intermolecular hydrogen bonds. (PAM) polyacrylamide insoluble in most organic solvents. Except for a few polar organic solvent, such as acetic acid,chloroacetic acid, ethylene glycol, glycerol, molten urea and formamide. However, the limited solubility of these organic solvents, often require heating, or of little value. Further soluble formamide, hydrazine, ethylene glycol. Because the industry in the form of an aqueous solution applications. |
Understanding Flocculation: The Key to Our Product's Effectiveness PAM facilitates the removal of suspended materials through charge neutralization and bridge adsorption, enabling superior flocculation.
The Power of Adhesion: Elevate Your Treatment Process PAM adheres through a combination of mechanical, physical, and chemical actions, providing robust stick and action.
Reduction in Resistance: Enhance Flow Efficiency With PAM, witness a remarkable reduction in fluid friction, as water treated with traces of PAM can experience resistance drops of 50-80%.
Thickening Potential: Optimize Your Treatment Conditions PAM exhibits a potent thickening effect in neutral and acidic environments. When the PH exceeds 10, PAM undergoes easy hydrolysis, transforming into a semi-mesh structure that enhances thickening.
Flocculation Principle: Achieve Superior Particle Aggregation PAM is expertly used for flocculation, reacting with floc surface properties. By adjusting the dynamic electromechanical characteristics, PH viscosity, turbidity, and suspension, it reduces particle surface zeta potential, fostering enhanced cohesion.
Adsorption Bridging: Ensuring Particle Stability and Settling PAM's molecular chains immobilize on different particle surfaces, creating bridges between polymer particles, which form stable aggregates that settle efficiently.
The Role of Adsorption: Leveraging Molecular Interaction PAM molecules interact with various polar groups, effectively adsorbing particles to achieve desired outcomes.
Enhancement Capabilities: Strengthening Your Process PAM's molecular chain, when dispersed through mechanical, physical, and chemical interactions, forms a robust network with the dispersed phase, enhancing process effectiveness.
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