Slurry pumps play a vital role in the mineral processing industry, where they are used to transport mixtures of solids and liquids, known as slurries. These slurries can be extremely abrasive, corrosive, or both, depending on the type of ore being processed. Selecting the right material for the flow parts of a slurry pump — namely the impeller, casing, and liners — is crucial to ensure optimal performance, durability, and cost-effectiveness.

This article explores how different mineral slurries influence material selection for slurry pump flow parts in mineral processing plants.

Key Factors Influencing Material Selection

The main factors to consider when selecting materials for slurry pump flow parts include:

• Abrasiveness of the slurry

• Corrosiveness (pH, chloride content, etc.)

• Particle size and shape

• Slurry concentration and velocity

• Operating temperature and pressure

Common Materials Used for Slurry Pump Flow Parts

1. High-Chrome White Iron (High Chromium Alloy, A05/A49)

2. Natural Rubber and Synthetic Elastomers

3. Polyurethane

4. Stainless Steels (e.g., 304, 316)

5. Ceramic Linings or Composites (for extreme cases)

Recommended Materials for Different Minerals

1. Gold and Copper Ores (Sulphide Ores)

• Recommended Material: High-Chrome White Iron (A05 or A49)

• Why: These ores are highly abrasive due to hard rock content. A05 has excellent wear resistance and is widely used in gold and copper processing.

• Note: In flotation circuits where pH is lower, A49 (with better corrosion resistance) might be more suitable.

2. Iron Ore

• Recommended Material: High-Chrome White Iron (A05)

• Why: Iron ore slurries are extremely abrasive, with large, hard particles. A05 provides superior hardness and wear resistance.

• Note: For thickened slurries or high-density applications, even tougher wear materials may be required.

3. Phosphate and Potash

• Recommended Material: Rubber or Polyurethane

• Why: These materials are less abrasive but chemically aggressive. Rubber offers good chemical resistance and reduces damage from sharp particles.

• Note: Polyurethane is used in fine particle and medium abrasive applications due to its toughness.

4. Silica Sand and Quartz

• Recommended Material: High-Chrome Iron or Ceramic Liners

• Why: Quartz and silica are extremely hard and abrasive. Chrome iron or even ceramic linings may be needed in severe conditions.

• Note: Ceramic options are costly but offer superior longevity in high-wear zones.

5. Coal

• Recommended Material: Rubber or Neoprene

• Why: Coal slurries are less abrasive. Rubber minimizes damage and cost. Neoprene may be preferred in mildly acidic environments.

• Note: For coarse coal handling, reinforced rubber or hybrid materials may be used.

6. Bauxite and Alumina

• Recommended Material: Stainless Steel (e.g., 316) or Rubber-lined components

• Why: The Bayer process involves high pH and caustic conditions. Rubber or 316 stainless provides corrosion resistance.

• Note: Where erosive wear is a concern, chrome alloys might be used in combination with corrosion-resistant linings.

Conclusion

Selecting the right material for slurry pump flow parts is not a one-size-fits-all decision. It depends heavily on the properties of the slurry and the operating environment. Using the wrong material can lead to premature wear, pump failure, and costly downtime. Therefore, understanding the specific challenges posed by different minerals is essential for choosing the right solution.

Quick Reference Table

By carefully evaluating the nature of each slurry and consulting with pump manufacturers, engineers can make well-informed choices that optimize performance and reduce maintenance costs in mineral processing operations.