Impellers
Impellers
Corrosion-Resistant Rotating Components for Fluid Handling Systems :
Impellers are critical rotating components used in pumps, blowers,
agitators, and circulation systems to move fluids or gases efficiently. In
corrosive or chemically aggressive environments, thermoplastic and
composite impellers provide a reliable alternative to metal impellers, which are prone to corrosion, scaling, and premature failure.
Manufactured from corrosion-resistant thermoplastic and composite
materials, these impellers are designed to deliver stable performance,
balanced rotation, and long service life in continuous-duty applications.
Material Options & Operating Temperature Ranges :
Impellers are fabricated using materials selected based on fluid chemistry, operating temperature, rotational speed, and mechanical load.
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PP (Polypropylene Copolymer) : Used for general-purpose fluid handling with mildly corrosive media. Suitable for ambient to moderate temperatures up to 80–90°C.
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PPH (Polypropylene Homopolymer) : Offers higher rigidity and improved chemical resistance. Commonly used in chemical process pumps operating up to 90–100°C.
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PVDF (Polyvinylidene Fluoride) : Preferred for highly corrosive chemicals and aggressive fluids. Provides excellent chemical resistance with stable performance up to 120–150°C, depending on design.
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HDPE (High-Density Polyethylene) : Used for low-pressure and abrasion-prone applications. Suitable for ambient temperature operation up to 60–70°C.
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PVC (Polyvinyl Chloride) : Applied in low-temperature chemical handling systems. Performs reliably up to 60°C.
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FRP (Fiber Reinforced Plastic) : Provides higher mechanical strength and stiffness. Suitable for ambient to moderate temperatures, depending on resin system.
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PP–FRP Lined Construction : Combines chemical resistance of polypropylene with added structural strength from FRP. Used for medium-duty impellers handling corrosive fluids.
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HDPE–FRP Lined Construction : Offers abrasion resistance with improved rigidity. Suitable for ambient temperature service.
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MS–FRP Lined Construction : Used where higher mechanical strength is required. Mild steel provides core strength, while FRP lining protects against corrosion in ambient service conditions.
What Makes Our Impellers Different :
| Features | Our Advantage | |
|---|---|---|
| Material Construction : | Manufactured from corrosion-resistant thermoplastic and composite materials. | |
| Flow Control Efficiency : | Dynamically balanced for smooth and vibration-free operation. | |
| Internal Surface Finish : | Designed for continuous-duty service. | |
| Filtration Cycle Durability : | Lightweight compared to metal impellers. | |
| Custom Configuration Compatibility : | Custom-designed for pump and system requirements. | |
Key Advantages :
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Excellent resistance to chemical corrosion.
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No rusting or scaling.
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Reduced wear and maintenance.
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Stable performance at operating speeds.
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Long service life in aggressive environments.
Applications & Industries :
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Chemical Processing Plants : Chemical transfer and circulation pumps.
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Water & Wastewater Treatment : Process and utility pumping systems.
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Scrubbers & Pollution Control : Liquid circulation and recirculation.
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Electroplating & Surface Treatment : Handling corrosive process fluids.
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Industrial Utilities : Cooling and process fluid movement.
Impellers
CPVC Impellers
CS+FRP Lined Impellers
FRP Impellers
HDPE Impellers
MS+FRP Lined Impellers
PPH Impellers
PP Impellersk
PVC Impellers
PVDF Impellers
SS+FRP Lined Impellers
UPVC Impellers
Why Industries Choose Us
Engineering Trust. Delivering Quality
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Expertise in thermoplastic and composite impeller fabrication.
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Multiple material options for chemical compatibility.
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Precision manufacturing and balancing.
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Technical support for impeller selection and design.
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If your application requires thermoplastic or composite impellers for corrosive fluid handling, we provide reliable solutions tailored to your operating conditions.