For chemical formulators and R&D scientists, Polyaluminium Chloride (PAC) is a versatile compound with applications extending beyond traditional water treatment. Its unique chemical properties make it a valuable ingredient in various industrial processes. This guide, from a prominent PAC manufacturer and supplier, explores its properties and how to effectively source it.

Understanding the Chemistry of Polyaluminium Chloride:

Polyaluminium Chloride (PAC), often identified by CAS No. 1327-41-9, is an inorganic polymer coagulant. Its effectiveness stems from its complex structure, which includes various polynuclear aluminum species with high positive charges. Key chemical characteristics relevant to formulators include:

  • High Charge Density: The highly charged aluminum species effectively neutralize negatively charged particles, promoting flocculation and coagulation.
  • Controlled Basicity: The basicity of PAC (ranging typically from 45% to 90%) influences its reactivity and efficiency in different applications. Formulators can select PAC with specific basicity levels to optimize their formulations.
  • Good Solubility: Both solid powder and liquid forms of PAC exhibit good solubility in water, facilitating easy incorporation into various formulations.
  • Low Impurities: High-quality PAC, especially drinking water grades, are produced with minimal heavy metal and insoluble matter, crucial for sensitive formulations.
  • Thermal Stability: While specific data varies by grade, PAC generally possesses reasonable thermal stability for many industrial processing conditions.

Applications for Chemical Formulators:

Beyond its primary role in water purification, PAC finds utility in several formulation contexts:

  • Paper Making Industry: PAC acts as a sizing agent and retention aid, improving paper strength and reducing fines loss.
  • Textile Industry: It can be used as a mordant or fixing agent in dyeing processes, enhancing color fastness.
  • Cosmetics and Personal Care: In certain formulations, PAC derivatives can function as astringents or antiperspirants.
  • Construction Chemicals: PAC can sometimes be incorporated into concrete admixtures as a setting accelerator or water reducer.
  • Catalysis: In specific chemical reactions, aluminum-based compounds like those found in PAC can serve as catalysts or catalyst precursors.

Sourcing High-Quality PAC:

For chemical formulators, sourcing reliable PAC is paramount to ensuring the consistent performance of their end products. Here’s what to look for when buying from a manufacturer or supplier:

  • Technical Data Sheets (TDS): Always request a detailed TDS that outlines specifications such as AL2O3 content, basicity, pH, insolubles, and heavy metal limits.
  • Sample Testing: Obtain samples from potential suppliers and conduct application-specific tests to verify performance and compatibility with your formulation.
  • Manufacturer Capabilities: Choose a manufacturer with a strong production capacity, stringent quality control measures (e.g., ISO certification), and the ability to supply consistent product batches.
  • Competitive Pricing and Supply Chain: Leverage the competitive manufacturing landscape, particularly in China, to secure cost-effective sourcing. Ensure the supplier has a stable supply chain and efficient logistics to meet your production schedules.
  • Customer Support: A responsive supplier who can provide technical assistance regarding product application and handling is a valuable asset.

Conclusion:

Polyaluminium Chloride is a multifaceted chemical with significant potential for formulators across various industries. By understanding its chemical properties and prioritizing the sourcing of high-quality PAC from reliable manufacturers and suppliers, formulators can unlock new product possibilities and enhance existing ones. If you need to buy PAC for your chemical formulations, exploring options from experienced Chinese producers offers a strategic advantage.