Plaque d'usure en carbure

Plaque d'usure en carbure: High-Chromium vs Low-Chromium Overlay Composition Comparison

Carbide wear plate is a hardfaced composite steel plate produced by depositing a carbide-rich alloy layer onto a carbon steel or low-alloy steel base. The wear resistance of the overlay layer is mainly determined by its teneur en chrome, which directly affects hardness, formation de carbure, dureté, et durée de vie.

In practical engineering applications, carbide wear plates are generally divided into high-chromium overlay et low-chromium overlay systems.

1. Basic Composition Difference

Taper Main Composition
High-chromium carbide wear plate High Cr (20–35%) + C + Fe matrix + alloy additives
Low-chromium carbide wear plate Lower Cr (5–15%) + C + Fe matrix + minor alloy elements

The key difference is the amount and distribution of chromium carbide phases formed during welding.

2. Carbide Formation and Microstructure

Taper Carbide Structure Main Wear Phase
High-chromium Dense Cr7C3 / Cr23C6 carbides Large hard carbide network
Low-chromium Mixed carbides with lower density Less carbide reinforcement

High-chromium plates form a much denser and harder carbide network, which significantly improves abrasion resistance.

3. Comparaison de dureté et de résistance à l'usure

Propriété High-Chromium Low-Chromium
Dureté superficielle HRC 58-65 HRC 45–55
Résistance à l'abrasion Excellent Modéré
Résistance aux chocs Medium to low Higher toughness
Service life in abrasion Plus long Plus court

4. Performance Difference in Applications

Working Condition Recommended Type
Abrasion par glissement sévère (ciment, exploitation minière, charbon) High-chromium carbide wear plate
Impact mitigé + abrasion Low-chromium carbide wear plate
High impact environments Low-chromium or complex alloy systems

5. Différence de coût

  • High-chromium plates: Higher material cost due to increased alloy content
  • Low-chromium plates: Plus économique, suitable for general wear conditions

Higher chromium content generally increases both hardness and cost.

6. Key Selection Principle

  • Choose high-chromium: When abrasion is the dominant wear mechanism
  • Choose low-chromium: When impact and toughness are also required

Proper selection improves service life and reduces total maintenance cost.

7. Teda Ganghua Carbide Wear Plate Supply Capability

As a professional wear-resistant steel supplier, Teda Ganghua provides both high-chromium and low-chromium carbide wear plate solutions, helping customers select the most suitable material based on actual working conditions in mining, ciment, acier, et industries électriques.

We support customized cutting, fabrication, and engineered wear system design.

Découvrez nos produits en acier résistant à l'usure ici:
Plaque de superposition de carbure de chrome

Conclusion

High-chromium carbide wear plates provide superior hardness and abrasion resistance, while low-chromium plates offer better toughness and cost efficiency. The best choice depends on whether the application is dominated by abrasion or impact wear.

Plaque de superposition de carbure de chrome

Plaque d'usure Cco