Complete Equipment Range

Industry-Leading Equipment for

Every Mining Operation

Widely applied in metallurgy, mining, chemical engineering, building materials, coal, refractory materials, ceramics, and other industries.

500+
Solutions Delivered
15+
Industries Served
25+
Years Experience
98%
Success Rate
Featured Solution

Most Popular Solution

Alumina Production Line

Industry
Abrasives and Grinding Materials, Aerospace Materials, Alumina Production, Aluminum Industry, Bauxite Processing, Ceramic Materials
Capacity
Equipment
Completion
Alumina production line processes bauxite ore into alumina Al₂O₃ through sintering, Bayer, or combined production routes, including crushing, grinding, slurry preparation, digestion, separation, filtration, evaporation, and calcination.
Process Highlights:

Copper Ore Beneficiation Process

Copper ore beneficiation process separates sulfide copper ore, oxide copper ore, and complex copper ore through crushing, screening, grinding, classification, flotation, leaching, mixed concentrate separation, and combined beneficiation methods to obtain qualified copper concentrate for smelting, refining, power, electrical, and industrial applications.
Capacity
400 T/D
Recovery
85–95%
Key Highlights:

Separates sulfide, oxide, and mixed copper ores.

Crushing prepares copper ore for grinding stages.

Screening controls feed size for stable ore flow.

Ball mills help liberate copper before flotation.

Flotation leaching recover copper minerals well.

Iron Ore Beneficiation Process

An iron ore beneficiation plant can be designed according to ore type, iron grade, mineral composition, magnetic properties, particle size, gangue content, liberation characteristics, and final concentrate requirement. The line can include crushing, screening, grinding, classification, weak magnetic separation, strong magnetic separation, gravity separation, flotation, reverse flotation, concentrate collection, and tailings treatment.
Capacity
400 T/D
Recovery
85–95%
Key Highlights:

Processes magnetite hematite limonite iron ores.

Magnetite uses weak magnetic separation methods.

Hematite uses gravity magnetic flotation routes.

Limonite uses roasting magnetic separation flow.

Siderite processing depends on ore grade traits.

Fluorite Ore Beneficiation Process

Fluorite ore beneficiation process separates fluorite from quartz, carbonate minerals, barite, sulfide minerals, and other gangue through crushing, screening, grinding, classification, flotation, thickening, filtration, and drying to obtain qualified fluorite concentrate.
Capacity
400 T/D
Recovery
85–95%
Key Highlights:

Crushing and grinding prepare fluorite ore feed.

Classifiers set ore size before flotation stage.

Uses crushers ball mills and flotation machines.

Handles quartz barite carbonate fluorspar types.

Handles quartz barite carbonate fluorspar types.

Phosphate Ore Beneficiation Process

Phosphate ore beneficiation process separates and enriches phosphate minerals through flotation, scrubbing desliming, gravity separation, chemical leaching, combined beneficiation, photoelectric sorting, and magnetic separation, with direct flotation, reverse flotation, positive-reverse flotation, and double reverse flotation selected according to ore characteristics.
Capacity
400 T/D
Recovery
80–90%
Key Highlights:

Ore properties guide phosphate process selection.

Flotation scrubbing remove phosphate impurities.

Gravity separation enriches phosphate ores well.

Direct flotation upgrades phosphate concentrate.

Reverse flotation removes dolomite and silicate.

Quartzite and Silica Sand Beneficiation Process

Quartzite and silica sand beneficiation process removes clay, film iron, aluminum impurities, mica, feldspar, weak magnetic minerals, Ti, Cr, and trace metallic impurities through washing, desliming, scrubbing, magnetic separation, flotation, acid leaching, microbial leaching, and deep purification to produce refined, high-purity, or ultra-high-purity silica sand.
Capacity
400 T/D
Recovery
72–90%
Key Highlights:

Removes clay iron mica feldspar, trace minerals.

Washing removes clay mud and surface impurities.

Desliming controls silica sand feed size stages.

Magnetic separation removes weak mineral grains.

Flotation and leaching purify silica sand feeds.

Gold Ore Beneficiation Process

Placer gold ore beneficiation uses gravity separation as the main recovery method, combined with washing, screening, desliming, sluice separation, jigging, shaking table cleaning, amalgamation, magnetic separation, and electrostatic separation to recover gold and associated heavy minerals.
Capacity
400 T/D
Recovery
75–90%
Key Highlights:

Gravity separation recovers placer gold mineral.

Washing screening desliming prepare placer gold.

Screening removes gravel and pebble waste rocks.

Desliming removes fine mud before concentration.

Sluices jigs shaking tables recover placer gold.

Our Solution Development Process

A proven methodology to deliver reliable, efficient, and customized mining solutions.

01

Analysis

Detailed ore analysis, site survey, and requirement assessment.

02

Design

Customized process design with optimized equipment configuration.

03

Implementation

Professional installation, commissioning, and on-site training.

04

Support

Continuous optimization, technical support, and maintenance services.

Need a Custom Solution?

Our engineering team is ready to design the most suitable mineral processing solution for your specific ore and production goals.