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Specifically designed for non-ferrous mining applications, including copper, molybdenum, and uranium ore processing, Strudex components excel in highly acidic/alkaline (pH 13-14), high-temperature (>80°C), and chemically aggressive slurries, delivering longer service life and superior operational efficiency compared to conventional alternatives.
Ultra-High Wear Resistance – Manufactured using advanced polymer composites or reinforced elastomers, Strudex rotors and stators resist abrasive wear significantly better than standard steel or rubber components, reducing replacement frequency by up to 40%.
Exceptional Corrosion & Chemical Resistance – Unlike metal impellers that degrade in acidic/alkaline conditions, Strudex materials remain stable in pH extremes (1-14), including uranium leaching processes where radiation and chemical attack accelerate wear.
Uranium-Resistant Formulation – Specially engineered to withstand radioactive and oxidative environments, making them ideal for uranium ore flotation and recovery operations.
High-Efficiency Hydrodynamic Design – The optimized impeller-stator geometry ensures maximum bubble dispersion, improved particle attachment, and energy-efficient mixing, leading to higher mineral recovery rates (5-15% increase) while reducing power consumption.
Proven in Large-Scale Mines – Successfully deployed in copper-molybdenum separation, uranium extraction, and sulfide ore processing under extreme conditions.
Lower Total Cost of Ownership – Extended lifespan and reduced maintenance offset higher upfront costs, delivering better ROI over time.
Customizable for Specific Ores – Available in multiple material grades (e.g., polyurethane, natural rubber, specialty composites) to match ore chemistry and operational demands.
Strudex flotation components set the industry benchmark for wear resistance, corrosion protection, and processing efficiency, making them the preferred choice for mines prioritizing reliability and performance.
Specifically designed for non-ferrous mining applications, including copper, molybdenum, and uranium ore processing, Strudex components excel in highly acidic/alkaline (pH 13-14), high-temperature (>80°C), and chemically aggressive slurries, delivering longer service life and superior operational efficiency compared to conventional alternatives.
Ultra-High Wear Resistance – Manufactured using advanced polymer composites or reinforced elastomers, Strudex rotors and stators resist abrasive wear significantly better than standard steel or rubber components, reducing replacement frequency by up to 40%.
Exceptional Corrosion & Chemical Resistance – Unlike metal impellers that degrade in acidic/alkaline conditions, Strudex materials remain stable in pH extremes (1-14), including uranium leaching processes where radiation and chemical attack accelerate wear.
Uranium-Resistant Formulation – Specially engineered to withstand radioactive and oxidative environments, making them ideal for uranium ore flotation and recovery operations.
High-Efficiency Hydrodynamic Design – The optimized impeller-stator geometry ensures maximum bubble dispersion, improved particle attachment, and energy-efficient mixing, leading to higher mineral recovery rates (5-15% increase) while reducing power consumption.
Proven in Large-Scale Mines – Successfully deployed in copper-molybdenum separation, uranium extraction, and sulfide ore processing under extreme conditions.
Lower Total Cost of Ownership – Extended lifespan and reduced maintenance offset higher upfront costs, delivering better ROI over time.
Customizable for Specific Ores – Available in multiple material grades (e.g., polyurethane, natural rubber, specialty composites) to match ore chemistry and operational demands.
Strudex flotation components set the industry benchmark for wear resistance, corrosion protection, and processing efficiency, making them the preferred choice for mines prioritizing reliability and performance.
