
- Descrição
Placa de aço revestida: Manufacturing and Processing Technology of Weld Overlay Wear Plate
Clad steel plate (also called weld overlay plate or hardfaced wear plate) is a composite material produced by depositing a wear-resistant alloy layer onto a steel base plate. Its performance depends not only on material composition but also on a precise and controlled manufacturing process.
Compared with ordinary steel plate production, clad steel plate requires multiple metallurgical and welding steps to achieve a stable wear-resistant surface.
1. Preparação de Matéria Prima
| Material | Função |
|---|---|
| Placa de aço básica | Provides strength and structural support |
| Welding alloy wire/powder | Forms wear-resistant overlay layer |
| Flux or shielding gas | Protects weld quality during deposition |
2. Surface Cleaning and Pre-Treatment
Antes de soldar, the base plate must be thoroughly cleaned:
- Remove oil, ferrugem, and surface impurities
- Ensure clean bonding surface
- Improve metallurgical fusion quality
Proper pre-treatment is essential to avoid delamination and defects.
3. Preheating Process
The base plate is often preheated before overlay welding:
- Reduces thermal stress
- Prevents cracking in hardfacing layer
- Melhora a força de ligação
Preheating temperature depends on steel grade and overlay system.
4. Processo de soldagem de sobreposição
This is the core manufacturing step of clad steel plate.
| Process Type | Características |
|---|---|
| Soldagem a arco aberto | Common, econômico, high deposition rate |
| Soldagem por arco submerso (SERRA) | Stable quality, suitable for large plates |
| ATP (Plasma transferred arc) | Alta precisão, excellent carbide control |
| Revestimento a laser | High-end process, baixa diluição, alto desempenho |
The wear-resistant layer is built by multiple welding passes to reach the required thickness.
5. Multi-Layer Deposition Control
- Each layer must be precisely controlled in thickness
- Cooling is required between passes
- Carbide distribution must remain uniform
This step determines final hardness and wear resistance.
6. Cooling and Stress Relief
Depois de soldar, controlled cooling is required:
- Prevents thermal deformation
- Reduces internal residual stress
- Improves structural stability
7. Straightening and Finishing
Because welding introduces deformation, finishing processes are required:
- Mechanical straightening
- Surface grinding (if required)
- Dimensional correction
8. Cutting and Fabrication
Clad steel plates are often processed into final shapes:
- Corte a plasma
- Waterjet cutting (preferred for precision)
- Corte a laser (thin plates)
Special care is needed due to the high hardness of the overlay layer.
9. Quality Inspection
| Test Item | Propósito |
|---|---|
| Hardness test | Verify wear resistance level |
| Bonding strength test | Ensure metallurgical fusion quality |
| Thickness measurement | Check overlay uniformity |
| Surface inspection | Detect cracks or defects |
10. Teda Ganghua Clad Steel Plate Manufacturing Capability
Como fornecedor profissional de aço resistente ao desgaste, Teda Ganghua produces high-quality clad steel plates using controlled welding processes, stable alloy systems, and strict quality inspection standards.
We provide customized wear solutions including cutting, fabricação, and engineered wear protection for mining, cimento, aço, e indústrias de energia.
Explore nossos produtos de aço resistentes ao desgaste aqui:
Placa de sobreposição de carboneto de cromo
Conclusão
The manufacturing of clad steel plate involves multiple precise steps including surface preparation, pré-aquecimento, multi-layer welding, cooling control, acabamento, and inspection. This complex process ensures high hardness, ligação forte, and long service life in industrial wear applications.










