| 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. |
Flocculation: The powerful process of combining and settling suspended particles to clarify water. PAM expertly facilitates suspended material aggregation through charge neutralization and bridge adsorption, enhancing flocculation efficiency.
Adhesion: Marvel at the adhesive prowess of PAM through its dynamic mechanical, physical, and chemical interactions. Experience the remarkable adhesion effects stemming from mechanical, physical, and chemical actions.
Reduction in resistance: Transform your fluid dynamics with PAM's friction-reducing capabilities. PAM significantly diminishes fluid friction, enabling water with minimal PAM traces to drop resistance by an astonishing 50-80%.
Thickening: Unlock superior viscosity with PAM's thickening effect under various PH conditions. PAM exhibits superior thickening under neutral and acidic conditions. A PH value exceeding 10 leads to hydrolysis, forming a semi-mesh structure with pronounced thickening.
Flocculation principle: Understand the intricate principles of PAM in facilitating flocculation through electro-dynamic interactions. PAM acts by interacting with particle surface properties, such as the zeta potential and viscosity, to form cohesive flocs. By introducing oppositely charged PAM, it assists in reducing potential movement and promoting cohesion.
Adsorption bridging: Discover how PAM forms essential bridges between particles to aggregate and settle efficiently. PAM molecular chains intricately attach to different particle surfaces, creating bridges that facilitate particle aggregation and settling.
Adsorption: Explore the versatility of PAM with its polar group adsorption ability over particles. PAM molecules effectively adsorb particles through diverse polar groups for optimal performance.
Enhancement: Amplify your water treatment solutions with PAM's network-forming capabilities. Through a synergistic blend of mechanical, physical, and chemical dispersion, PAM molecular chains interact with the dispersed phase to form a network, greatly enhancing its role.
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