| 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 cornerstone of effective water treatment, our PAM excels in clumping and separating suspended particles, ensuring clarity and purity. PAM facilitates suspended material removal by charge neutralization and bridge adsorption, setting the stage for superior flocculation dynamics.
Adhesion: - Experience the power of PAM's multifaceted adhesion properties, blending mechanical, physical, and chemical interactions to enhance binding and performance. Through complex mechanical, physical, and chemical interactions, PAM binds particles effectively, showcasing its exceptional adhesive capabilities.
Reduction in resistance: - Achieve unprecedented fluid flow efficiency with PAM, reducing resistance and friction in water treatment systems by up to 80%. PAM significantly minimizes fluid friction, enabling water with just traces of PAM to cut resistance by 50-80%, optimizing your system's efficiency.
Thickening: - Experience remarkable viscosity enhancement with PAM, especially under neutral and acidic conditions, making it the perfect choice for diverse applications. PAM exhibits an outstanding thickening effect in neutral and acidic settings. When the pH exceeds 10, its tendency for hydrolysis increases, resulting in a half-mesh structure and even more pronounced thickening.
Flocculation principle: - Discover the sophisticated mechanisms of PAM's flocculation, driven by surface properties, pH value, and charge dynamics, to achieve optimal cohesion in water treatment. Utilizing PAM for flocculation involves the interplay of floc surface properties, dynamic electromechanical factors, pH, and turbidity. By adding oppositely charged PAM, potential movement is reduced, enhancing cohesion.
Adsorption bridging: - PAM's molecular chains create robust bridges on particle surfaces, forming aggregates that efficiently settle and clarify treated water. PAM molecular chains anchor on diverse particle surfaces, establishing bridges that lead to particle aggregation and effective settling.
Adsorption: - Efficiently capture particles with PAM's polar group adsorption, a key feature for enhanced water treatment processes. Various polar groups on PAM molecules attract and hold particles, maximizing adsorption efficiency.
Enhancement: - Unlock the full potential of PAM's molecular chains as they form networks through mechanical, physical, and chemical interactions, enhancing the entire treatment process. PAM molecular chains, dispersed through an array of interactions, combine with the dispersed phase to create a network, intensifying the overall enhancement effect.
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