Quality Lithium Carbonate 99% – 80 Mesh Powder for Glass, Battery & More

Lithium carbonate is one of the most essential industrial chemicals used today, valued for its purity, stability, and versatility across numerous sectors. High-quality lithium carbonate 99% in an 80-mesh powder form plays a critical role in manufacturing advanced materials—from high-performance batteries to specialty glass and ceramics. In this article, we explore its properties, production, applications, and the growing importance of this compound in modern industries.

Understanding Lithium Carbonate 99%

Lithium carbonate (Li₂CO₃) is an inorganic compound produced through the extraction and processing of lithium-rich minerals or brines. A purity level of 99% ensures minimal contamination from metals and impurities, making it suitable for highly sensitive industrial processes. The powdered form, especially when mill-graded to 80 mesh, provides a consistent particle size that supports uniform mixing, melting, or chemical reactions.

The 80-mesh grade refers to a fine powder that passes through a sieve with 80 openings per inch. This level of fineness enhances reactivity, dispersion, and blending efficiency, particularly in applications such as glass manufacturing and battery cathode production.

Key Physical and Chemical Properties

Quality lithium carbonate 99% demonstrates several unique characteristics:

• High Purity: Ensures optimal performance in chemical reactions and industrial processes.

• Controlled Particle Size: The 80-mesh grading provides consistent powder flow and uniformity.

• Thermal Stability: Maintains structure under high temperatures, making it ideal for glass and ceramic production.

• Reactivity: Reacts predictably with acids, metals, and other compounds, supporting controlled synthesis.

• Low Iron Content: Essential for electronic and optical products where contamination leads to performance issues.

These features make it indispensable for industries requiring precision and consistency.

Applications in the Glass Industry

One of the primary uses of lithium carbonate 99% – 80 mesh powder is in the production of specialty glass. It acts as a flux, lowering the melting point of silica and improving melt viscosity. This leads to:

• Higher clarity and durability in glass products

• Improved thermal shock resistance, vital for cookware and laboratory glass

• Enhanced stability in ceramic glazes and optical glass

• Energy-efficient melting due to lower temperatures

Manufacturers of ovenware, ceramic tiles, fiberglass, and display glass often rely on lithium carbonate to achieve desired mechanical and aesthetic qualities.

Essential Component in Battery Manufacturing

In the battery sector, lithium carbonate is a foundational ingredient for producing lithium-ion battery cathode materials. Its benefits include:

• Consistency in lithium metal oxide synthesis, supporting stable electrochemical performance

• High purity, reducing unwanted side reactions inside batteries

• Particle uniformity, essential for achieving even coating on battery electrodes

It is used in the production of materials such as lithium cobalt oxide (LCO), lithium nickel manganese cobalt oxide (NMC), and lithium manganese oxide (LMO). These materials power devices like smartphones, electric vehicles, energy-storage systems, and power tools.

Role in Ceramics and Glazes

Lithium carbonate has long been used in ceramic and tile production. It contributes to:

• Improved glaze elasticity

• Reduced thermal expansion, preventing cracking

• Enhanced surface finish on tiles, pottery, and sanitary ware

Its ability to stabilize glazes and improve color development makes it a valuable ingredient for ceramic artisans and large-scale tile manufacturers alike.

Use in Pharmaceuticals and Chemical Synthesis

While industrial-grade lithium carbonate is primarily used in manufacturing, refined pharmaceutical-grade lithium carbonate supports medical applications such as mood-stabilizing medications. Industrial-grade material also plays a role in chemical synthesis, where it is used to produce:

• Lithium hydroxide

• Lithium metal

• Lithium greases and lubricants

• Specialty inorganic compounds

Its predictable chemical behavior makes it useful in various controlled reactions.

Environmental and Energy Applications

As global industries shift toward sustainable and renewable solutions, lithium carbonate is increasingly important in energy storage and green technologies. High-quality lithium carbonate supports:

• Efficient battery recycling processes

• Renewable-energy storage systems for wind and solar power

• Grid-level energy storage solutions

• Lithium-based catalysts for cleaner chemical manufacturing

Its role in decarbonization strategies continues to expand as demand for clean energy accelerates.

Production and Processing Methods

Quality lithium carbonate 99% typically comes from two primary sources:

1. Lithium-rich brines found in salt flats

2. Hard-rock minerals, such as spodumene

The production process involves extraction, purification, precipitation of lithium carbonate crystals, drying, and milling to the desired mesh grade. Strict quality control is essential to maintain consistent purity, particle size distribution, and chemical properties.

Advantages of 80-Mesh Powder Form

Using an 80-mesh powder presents several operational benefits:

• Better blending with other materials

• Faster dissolution and reaction kinetics

• Improved uniformity in batch processing

• Enhanced control over product quality in glass, battery, or ceramic manufacturing

Fine, uniform powder ensures greater efficiency and more reliable outcomes in industrial settings.

Growing Global Demand

Global demand for lithium carbonate continues to rise, primarily driven by the electric-vehicle revolution and expansion of renewable-energy storage. Industries worldwide seek reliable sources of high-purity lithium carbonate to meet production goals. As technology advances, the quality requirements for lithium compounds are becoming even stricter, making high-purity 80-mesh powder a preferred choice.

Conclusion

Quality lithium carbonate 99% – 80 mesh powder is a vital material across many industries, from advanced battery manufacturing to specialty glass and high-performance ceramics. Its controlled purity, fine particle size, and predictable performance make it an essential ingredient in technologies that define modern living—energy storage, electronics, automotive applications, and industrial manufacturing. As the global shift toward clean energy continues, the demand for high-grade lithium carbonate will only grow, securing its role as one of the most important industrial minerals of our time.

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