fluoride concentrate

High-purity Fluorspar Concentrate 95% CaF (calcium fluoride concentrate) serves as an indispensable industrial raw material for fluorochemical synthesis, steel metallurgy, aluminum smelting, glass manufacturing and ceramic glazing. Processed from our exclusive Mongolian fluorite mines, this 95% CaF fluorspar concentrate delivers stable chemical performance and reliable feeding quality for mass production lines worldwide. Core Industrial Functions & Application Value

High Purity Acid Grade Fluorspar Powder | CaF 97.5% Product Introduction Our acid grade fluorspar concentrate is a high-purity industrial raw material with CaF content above 97%, and most batches reach over 97.5%. Adopting advanced mineral processing technology, the product features low impurity content and uniform particle size. It is an essential raw material for hydrofluoric acid production, fluorine chemical manufacturing and metallurgy, fully complying with strict

1. Basic Product Information Product Name: 92% Calcium Fluoride Fluorspar Powder, 92% Fluorspar Lump Chemical Formula: CaF CAS Number: 7789-75-5 EINECS No.: 232-188-7 Source: Self-operated fluorspar mines in Mongolia Available Forms & Custom Sizes Lump: 38mm, 515mm, 1030mm, 2050mm,3080mm customizable Powder: 100 mesh, 200 mesh, 325 mesh adjustable fineness Appearance: Off-white crystalline solid; hard irregular lumps, free-flowing fine powder 2. Quality Specifications

Acid Grade Fluorspar Concentrate CaF 97% (Main 97.5%) | Low Impurity & High Reactivity for HF Production 2. Product Introduction This product is acid grade fluorspar concentrate, the core raw material for hydrofluoric acid (HF) and the fluorine chemical industry chain. Made from high-grade fluorspar ore through flotation, purification, drying and other processes, the CaF content is stably 97%, with mainstream batches reaching over 97.5%. Impurities such as SiO, S, P and

Mongolia Sourced High Purity Fluorite Ore | Calcium Fluoride CaF Raw Mineral for Global Industrial Manufacturing Fluorite, also widely traded as fluorspar, is an essential halide mineral consisting of calcium fluoride (CaF). As the leading raw material for all fluorine-related industries, it underpins production in fluorochemical manufacturing, metal smelting, glass melting and ceramic fabrication. Geologically, fluorite originates from magmatic hydrothermal mineralization.

Metallurgical Grade Fluorspar Lump & Concentrate 65% CaF | Cost-Effective Flux for Steelmaking 2. Product Introduction Our metallurgical grade fluorspar is available in both lump and concentrate forms, serving as an essential fluxing agent for steelmaking and non-ferrous metal processing. Sourced from natural fluorspar ore, it is processed through crushing, screening or flotation to deliver a stable CaF content of 65%, with strictly controlled impurities including SiO, S

1. Basic Product Info Product Name: 95% Fluorspar Powder, 95% Fluorspar Lump Chemical Name: Calcium Fluoride (CaF) CAS No.: 7789-75-5 EINECS: 232-188-7 Origin: Self-owned fluorspar mines in Mongolia Forms Available: Lump: 510mm, 1030mm, 2050mm custom sizes Powder: 100mesh / 200mesh / 325mesh adjustable fineness Appearance: Off-white crystalline solid; lumps are hard rock particles, powder is free-flowing fine dust 2. Strict Quality Standard (95% Grade) Testing Item

High-Purity Fluorspar (CaF 97%) | Premium Mongolian Fluorite Ore Supplier Product Overview Product Name: Metallurgical grade fluorspar / CaF 97% Chemical Composition: Calcium Fluoride (CaF) 97% Origin: Mongolia Sourced from premium Mongolian fluorspar deposits, our CaF 97% fluorspar combines exceptional purity, low impurity levels, and consistent quality to meet the requirements of demanding industrial applications. With excellent chemical stability and superior

Metallurgical Fluorspar Lumps & Powder | CaF 65% for Smelting Flux Product Introduction We supply metallurgical grade fluorspar in both lump and powder forms with CaF content above 65%. As an essential flux material, it is widely used in iron, steel and non-ferrous metal smelting. With well-controlled impurities, it effectively reduces slag melting point and improves fluidity, while minimizing wear on furnace linings. It is fully applicable to blast furnaces, converters,