| Customization: | Available |
|---|---|
| CAS No.: | 9003-05-8 |
| Formula: | (C3h5no)N |
|
Still deciding? Get samples of $ !
Request Sample
|
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
| 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 Science of Clarity! PAM utilizes the magic of charge neutralization and bridge adsorption to enable suspended particles to flocculate effortlessly, enhancing water purity like never before.
Adhesion: The Bonding Force! Experience the robust stickiness and dynamic interaction achieved through mechanical, physical, and chemical processes.
Reduction in Resistance: Streamlined Efficiency! PAM dramatically decreases fluid friction, allowing water treated with PAM to experience a remarkable 50-80% reduction in resistance.
Thickening: The Powerful Build-Up! In neutral and acidic environments, PAM exhibits an extraordinary thickening capability. When the pH exceeds 10, its semi-mesh structure emerges, enhancing thickening effects even further.
Flocculation Principle: The Core Mechanism! PAM drives flocculation with amazing efficacy! Key factors include floc surface properties, dynamic electromechanical characteristics, pH levels, viscosity, turbidity, and suspension-all crucial to the particle surface zeta potential. By introducing oppositely charged PAM, potential and cohesion are significantly reduced.
Adsorption Bridging: The Connection Creation! PAM's molecular chains are anchored onto particle surfaces, forming robust bridges between polymer particles, which aggregate to seamlessly settle.
Adsorption: The Polar Attraction! PAM molecules, brimming with diverse polar groups, effectively adsorb particles to deliver superior performance.
Enhancement: The Network Builder! PAM's molecular chains interact with the dispersed phase, forming a resilient network through various mechanical, physical, and chemical enhancements.
){kind=link}