High Chromium Carbide Overlay

High Chromium Carbide Overlay and low-chromium overlay systems are both widely used in wear-resistant engineering, but they serve different operational needs. High-chromium systems deliver superior hardness and abrasion resistance for extreme wear conditions, while low-chromium systems offer better toughness and impact resistance for mixed working environments. Proper selection ensures optimal performance, masa pakai lebih lama, and reduced maintenance costs in industrial applications.

High Chromium Carbide Overlay (Hamparan CrC) is a wear-resistant welding layer deposited onto a steel base plate to improve surface hardness and abrasion resistance. Ini banyak digunakan di pertambangan, semen, pembangkit listrik, dan industri penanganan material curah. According to chromium content and carbide structure, overlay systems are generally divided into high-chromium overlay Dan low-chromium overlay.

These two systems differ significantly in composition, kekerasan, wear resistance mechanism, dan kondisi aplikasi.

Material Composition Difference

High-Chromium Carbide Overlay

High-chromium overlay contains a higher percentage of chromium, khas:

  • Kromium (Kr): 25–35%
  • Karbon (C): 3–5%
  • Besi (Fe): Keseimbangan
  • Elemen kecil: M N, Si for weld stability

This composition promotes the formation of dense, hard carbide phases such as Cr₇C₃ and Cr₂₃C₆.


Low-Chromium Carbide Overlay

Low-chromium overlay has reduced chromium content:

  • Kromium (Kr): 12–20%
  • Karbon (C): 2–4%
  • Besi (Fe): Keseimbangan
  • Additional alloying elements may be used to balance toughness

The carbide formation is less dense compared to high-chromium systems.

Hardness and Microstructure Comparison

Milik High-Chromium Overlay Low-Chromium Overlay
Chromium Content 25–35% 12–20%
Carbide Density Tinggi Sedang
Kekerasan Permukaan 58–65 HRC 50–58 HRC
Ketahanan Aus Bagus sekali Moderate–High
Kekerasan Sedang Lebih tinggi

High-chromium systems prioritize extreme hardness, while low-chromium systems balance hardness and toughness.

Mekanisme Ketahanan Aus

High-Chromium Overlay

  • Dense chromium carbide network
  • Strong resistance to cutting and grinding wear
  • Excellent performance under severe abrasion conditions
  • Better suited for dry, high-impact particle environments

Low-Chromium Overlay

  • Less carbide saturation
  • Improved crack resistance and toughness
  • Better performance under mixed impact and wear conditions
  • Suitable for unstable or shock-heavy environments

Perbandingan Ketahanan Dampak

Fitur High-Chromium Overlay Low-Chromium Overlay
Resistensi Dampak Medium–Low Sedang–Tinggi
Crack Sensitivity Lebih tinggi Lebih rendah
Structural Flexibility Lebih rendah Lebih tinggi

High-chromium systems may require more careful process control to avoid cracking under heavy impact.

Typical Application Differences

High-Chromium Carbide Overlay Applications

  • Cement plant chutes and liners
  • Mining transfer systems
  • Peralatan penanganan batubara
  • High-abrasion conveyor surfaces
  • Dry particle erosion environments

Low-Chromium Carbide Overlay Applications

  • Excavator buckets with impact load
  • Liner truk sampah
  • Crusher components with mixed wear
  • Material handling with variable particle size
  • Shock-prone industrial equipment

Process and Fabrication Considerations

Faktor High-Chromium Low-Chromium
Kesulitan Pengelasan Lebih tinggi Lebih rendah
Risiko Retak Lebih tinggi Lebih rendah
Heat Control Requirement Strict Sedang
Tingkat Biaya Lebih tinggi Lebih rendah

High-chromium overlays require tighter control of heat input and cooling to maintain surface integrity.

Performance Summary

  • High-chromium overlays provide ketahanan abrasi maksimum for severe wear environments
  • Low-chromium overlays provide a balanced combination of wear and impact resistance
  • Selection depends on whether the application prioritizes hardness or toughness

Hamparan Tungsten

Hamparan Tungsten

Hamparan Tungsten