Piastra in acciaio resistente all'abrasione
Piastra in acciaio resistente all'abrasione is produced through advanced alloy design, precision rolling, and quenching-tempering treatment.
La sua combinazione di durezza, forza, e tenacità allows it to perform reliably under extreme wear conditions.
Proper fabrication — including controlled cutting, saldatura, e formando — ensures the steel retains its superior wear resistance throughout industrial applications.
- Descrizione
Resistente all'abrasione (AR) piastra in acciaio is a high-strength, high-hardness alloy designed to perform in harsh industrial environments.
It is engineered to resist sliding wear, impact abrasion, and surface fatigue caused by materials such as rock, minerale, carbone, or concrete.
Producing AR steel requires strict control of chemical composition, heat treatment, and surface quality to achieve the ideal balance between durezza e tenacità.
1. Manufacturing Process of Abrasion Resistant Steel Plate
The production of AR steel plate involves several controlled metallurgical steps:
1.1 Raw Material Selection
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High-quality acciaio a bassa lega is used as a base.
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Alloying elements such as carbonio (C), manganese (Mn), cromo (Cr), nichel (In), molibdeno (Mo), E boron (B) are added to increase hardness and wear resistance.
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Precise control of carbon ensures a good balance between strength and weldability.
1.2 Melting and Refining
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The steel is melted in an electric arc furnace (EAF) O basic oxygen furnace (BOF).
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Secondary refining (LF or VD treatment) removes impurities like sulfur and phosphorus to improve toughness and cleanliness.
1.3 Continuous Casting and Rolling
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Molten steel is cast into slabs and then hot rolled into plates of the desired thickness.
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Controlled rolling at precise temperatures refines the grain structure and improves strength.
1.4 Trattamento termico (Quenching and Tempering)
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Tempra: The plate is rapidly cooled from the austenitizing temperature (around 850–900°C) in water or polymer solution.
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Questo forma a martensitic microstructure, achieving hardness levels of 360–600 HBW.
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Temperamento: The plate is reheated (200–300°C) to relieve internal stress and enhance toughness.
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The result is a balance between high hardness and impact strength.
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1.5 Flattening and Surface Finishing
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I piatti sono leveled, shot-blasted, and pickled to remove scale and achieve a clean surface.
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Final inspection ensures consistent hardness through the thickness.
2. Fabrication and Processing of AR Steel Plate
Because of its high hardness, piastra resistente all'abrasione requires special techniques for cutting, flessione, e saldatura.
2.1 Taglio
| Method | Descrizione | Recommendation |
|---|---|---|
| Taglio al plasma | Most common; clean edge and high precision | Use slow speed and preheat for thicker plates |
| Taglio laser | Ideal for thin plates (<20 mm) | Minimal heat distortion |
| Water Jet Cutting | Cold process, no thermal effect | Suitable for high-hardness grades |
| Flame Cutting | For thick plates (>40 mm) | Preheat to 150–200°C to avoid cracking |
2.2 Piegatura e formatura
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Best performed on AR360–AR400 gradi.
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Plates should be preheated (100–150°C) before bending to reduce cracking risk.
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Inside bend radius should be at least 3–5× plate thickness.
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Higher hardness grades (AR500–AR600) are less suitable for forming and should be cut into shape instead.
2.3 Saldatura
| Aspetto | Guideline |
|---|---|
| Preheating | 120–200°C (depends on thickness and hardness) |
| Filler Material | Low hydrogen welding wire or electrode |
| Interpass Temperature | Mantenere <250°C |
| Trattamento Termico Post Saldatura | Usually not required; avoid over-tempering |
| Welding Type | GMAW, FCAW, or SMAW with low hydrogen control |
Proper preheat and controlled cooling prevent hydrogen-induced cracking and maintain the plate’s hardness near the weld zone.
2.4 Lavorazione
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Drilling or milling AR steel requires carbide-tipped tools E low cutting speed.
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Utilizzo coolant E constant feed pressure to minimize heat buildup.
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For very high hardness grades, Elettroerosione (electric discharge machining) may be used.
3. Applicazioni industriali
| Industria | Componenti tipici | Recommended Grades |
|---|---|---|
| Estrazione & Estrazione | Fodere del frantoio, tramogge, letti di autocarri con cassone ribaltabile | AR450 / AR500 |
| Macchinari da costruzione | Secchi, lame del bulldozer, cade | AR400 / NM400 |
| Cemento & Concrete | Mixers, trasportatori, alimentatori | AR400 / AR450 |
| Acciaio & Power Plants | Coal chutes, pale del ventilatore, ash pipelines | AR500 / AR600 |
| Recycling Industry | Trituratori, martelli, piastre di usura | AR500 / AR600 / Mn13 |
4. Advantages of Industrial Use
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Longer Service Life: Up to 3–5× that of ordinary structural steel.
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Reduced Maintenance: Lower replacement and downtime costs.
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Forza strutturale: High yield strength allows lighter designs.
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Versatilità: Can be welded, machined, or bolted into assemblies.
















