Placa de desgaste bimetálica

Placa de desgaste bimetálica: Is It a Composite Steel Plate and How to Verify Its Weld Overlay Composition?

Bimetal wear plate is a composite steel plate consisting of a base metal and a wear-resistant overlay layer. In most industrial applications, it refers to a sobreposição de solda (hardfaced) wear plate, where a high-hardness alloy layer is metallurgically bonded onto a steel substrate.

So yes—bimetal wear plate is essentially a composite metal steel plate, designed to combine toughness and wear resistance in one structure.

1. Is Bimetal Wear Plate a Composite Steel Plate?

Structure Type Descrição
Camada base Carbon steel or low-alloy steel for strength
Camada de sobreposição Hard alloy (carboneto de cromo, carboneto complexo, etc.) para resistência ao desgaste

This dual-layer structure makes it a true material compósito bimetálico.

2. Is It the Same as Weld Overlay Plate?

In most industrial contexts:

  • Bimetal wear plate = general concept of two-metal structure
  • Weld overlay plate = specific manufacturing method using hardfacing welding

Portanto, weld overlay plate is the most common form of bimetal wear plate.

3. How to Verify Whether the Composition Meets Standards?

Quality verification of weld overlay composition focuses on chemical content, dureza, and microstructure rather than only surface appearance.

(1) Spectrometric Chemical Analysis (OES / XRF)

Test Method Propósito
OES (Optical Emission Spectroscopy) Accurate measurement of Cr, C, Mn, Mo, Nb content
XRF analysis Quick surface alloy verification

These methods confirm whether chromium carbide and alloy elements meet design specifications.

(2) Teste de dureza (CDH / Alta tensão)

  • Checks surface wear resistance level
  • Typical chromium carbide overlay: CDH 58–65
  • Uniform hardness indicates stable alloy distribution

(3) Metallographic Examination

  • Observes carbide distribution (Cr₇C₃ / Cr₂₃C₆)
  • Checks bonding between overlay and base steel
  • Detects dilution or structural defects

(4) Thickness Measurement of Overlay Layer

Parâmetro Requirement
Espessura da sobreposição Typically 3–12 mm depending on application
Uniformity No significant thickness variation across plate

(5) Bonding Strength Inspection

  • Ensures metallurgical fusion between layers
  • Prevents delamination under impact or abrasion
  • Often tested by bend or shear evaluation

(6) Surface Crack Inspection

Controlled micro-cracks are normal in chromium carbide overlay, but inspection ensures:

  • No deep or through-thickness cracks
  • No peeling or flaking of overlay layer

4. Why Composition Control Is Critical

Fator Efeito no desempenho
Chromium content Determines carbide formation and hardness
Carbon content Affects carbide density and wear resistance
Alloy additives (N.º, Mo) Improve toughness and microstructure stability

5. Teda Ganghua Bimetal Wear Plate Quality Control

Como fornecedor profissional de aço resistente ao desgaste, Teda Ganghua ensures strict quality control of bimetal wear plates through chemical analysis, hardness testing, and metallographic inspection to guarantee stable chromium carbide composition and reliable service performance.

We provide customized overlay solutions for mining, cimento, aço, and power industries with consistent quality and engineered wear resistance.

Explore nossos produtos de aço resistentes ao desgaste aqui:
Placa de sobreposição de carboneto de cromo

Conclusão

Bimetal wear plate is a true composite steel plate, most commonly produced by weld overlay technology. Its quality can be verified through chemical composition analysis, hardness testing, metallography, thickness measurement, and bonding inspection to ensure the wear-resistant layer meets design standards.

Placa de desgaste de carboneto de cromo

Placa de desgaste de carboneto de cromo