
- Descripción
Placa de desgaste revestida: Structure and Typical Service Life of Hardfaced Wear Plates
Clad wear plate (also called weld overlay wear plate or hardfaced plate) is a composite material designed to resist severe abrasion and impact. It is produced by metallurgically bonding a hard wear-resistant layer onto a ductile steel base plate.
The performance of clad wear plate depends on its layered structure and the service conditions in which it operates.
1. Main Structure of Clad Wear Plate
| Capa | Función principal |
|---|---|
| Wear-resistant overlay layer | Provides hardness and abrasion resistance |
| Zona de transición (fusion layer) | Ensures metallurgical bonding between layers |
| Placa base de acero | Proporciona dureza, fortaleza, y soporte estructural |
Each layer plays a different role, and together they form a balanced wear protection system.
2. Wear-Resistant Layer Composition
The top wear layer is usually made of:
- Aleaciones de carburo de cromo (most common)
- Complex carbide systems (Cr-Nb-Mo)
- Tungsten carbide reinforced alloys
These hard phases provide resistance against abrasion, erosión, y desgaste por deslizamiento.
3. Typical Service Life of Clad Wear Plate
Service life depends on material type, espesor, and working conditions. En general, clad wear plates significantly outperform ordinary steel.
| Working Condition | Expected Service Life Improvement |
|---|---|
| Light abrasion | 3–5× longer than mild steel |
| Medium abrasion | 5–8× longer |
| Abrasión severa (cemento, minería) | 8–12× longer |
| Condiciones de desgaste extremas | Up to 15× depending on design |
4. Factors Affecting Service Life
| Factor | Influencia |
|---|---|
| Carbide type | Determines hardness and wear resistance |
| Grosor de superposición | Controls usable wear life duration |
| Nivel de impacto | High impact reduces service life |
| Material flow type | Sliding wear is more severe than impact-only wear |
5. Why Clad Wear Plates Last Longer
- Hard carbide layer resists direct abrasion
- Ductile base absorbs impact energy
- Metallurgical bonding prevents delamination
- Layered structure balances hardness and toughness
6. Application Environments
| Industria | Typical Equipment |
|---|---|
| Minería | caídas, trituradoras, revestimiento |
| Cemento | Tolvas, ducts, ciclones |
| Steel plants | Sinter systems, transportadores |
| Plantas de energía | Sistemas de manipulación de carbón y cenizas. |
7. Teda Ganghua Clad Wear Plate Supply Capability
Como proveedor profesional de acero resistente al desgaste, Teda Ganghua provides high-performance clad wear plates with stable chromium carbide overlay systems and customized engineering solutions for mining, cemento, acero, y las industrias energéticas.
We support tailored thickness, corte, fabricación, and wear system design based on real working conditions.
Explore nuestros productos de acero resistente al desgaste aquí:
Placa de superposición de carburo de cromo
Conclusión
Clad wear plates consist of a wear-resistant overlay layer, a transition fusion zone, and a steel base plate. Their service life can range from 3× to more than 15× that of ordinary steel depending on working conditions, making them a highly efficient solution for industrial wear protection.










