Fluorspar Market: Industrial Importance
Potassium Fluoride
Fluoroaromatics
Metal Fluoroborates
Potassium Fluoroborate
Glass Industry
Petroleum Industry
Boron Trifluoride and Complexes
Consumer Additives
Electric Vehicles (EVs)
Metal/Alloy Processing: Acts as a flux and cosolvent in metallurgical applications.
Glass Engraving: Used for etching and surface treatment.
Consumer Goods: Employed in food preservation, dyes, and organic synthesis.
Pharmaceuticals: Essential for synthesizing fluorine-containing drugs, enhancing stability and efficacy.
Abrasives: Used in thermosetting resin grinding wheels.
Boron Alloys: Serves as a raw material for boron-containing alloys in metallurgy.
Flux Agent: Lowers melting temperatures, reducing energy consumption and improving workability.
Specialty Glass: Enhances durability in optical lenses and fiberglass production.
Catalysis: Hydrofluoric acid (derived from fluorspar) enables alkylation processes for high-octane gasoline.
Semiconductors: Critical for etching and gas-phase doping in chip manufacturing.
Chemical Catalysts: Widely used in petrochemical, pharmaceutical, and polymer industries.
Fluoropolymers: Found in non-stick coatings (e.g., Teflon) and high-performance plastics.
Refrigerants: Used in air conditioning and refrigeration systems.
Battery Components: Integral to lithium-ion batteries, including cathodes, electrolytes, and PVDF binders.
Demand Surge: Each EV battery requires up to 100 kg of fluorspar.
Industrial Grinding: Key component in abrasive wheels.