- Descrição
Revestimento de aço enferrujado commonly refers to corten steel (Aço intemperativo) used as exterior building façade panels. Its most distinctive feature is the stable “red rust” or oxide patina layer that forms naturally on the surface after exposure to outdoor environments. This rust layer is not a defect—instead, it is a controlled corrosion process that protects the inner steel from further degradation.
Corten steel cladding is widely used in architectural façades, wall cladding systems, landscape screens, and modern building envelopes due to its unique appearance and long-term durability.
How the Rusted Layer of Corten Steel Is Formed
The red-brown protective layer on corten steel is formed through a controlled oxidation cycle involving moisture, oxigênio, e elementos de liga.
1. Initial Rust Formation
When corten steel is first exposed to the atmosphere:
- Oxygen and water react with iron in the steel surface
- A thin layer of iron oxide begins to form
- This is similar to ordinary rust at the early stage
Nesta fase, the surface may appear uneven and flaky.
2. Alloying Element Activation
Corten steel contains small amounts of:
- Cobre (Cu)
- Cromo (Cr)
- Níquel (Em)
- Fósforo (P)
These elements change the nature of the rust layer by:
- Reducing rust porosity
- Slowing down moisture penetration
- Stabilizing oxide formation
3. Formação de Pátina Protetora
After repeated cycles of:
- Wetting (chuva, umidade)
- Drying (sun, wind)
The rust layer gradually transforms into a dense, tightly bonded oxide film known as a pátina protetora.
Esta camada:
- Adheres strongly to the steel surface
- Prevents deep corrosion
- Reduces oxygen and water penetration
- Stops further rust penetration into the base metal
This is the key difference between corten steel and ordinary carbon steel.
Key Properties of Rusted Steel Cladding (Corten Façade)
1. Self-Protecting Surface Layer
Unlike traditional steel, corten does not require paint or coating in many outdoor applications. The rust layer itself becomes the protective barrier.
2. Long-Term Weather Resistance
Once stabilized, the patina layer resists:
- Rain exposure
- Humidity cycles
- Urban atmospheric pollution
- Mild chemical exposure
This makes it suitable for long-life architectural façades.
3. Unique Aesthetic Appearance
The surface develops a natural color transition:
- Cinza escuro (initial stage)
- Orange rust (active oxidation)
- Deep brown stable patina (final stage)
This gives buildings a warm, industrial, and natural architectural style.
4. Baixa exigência de manutenção
Because the corrosion process is self-limiting:
- No repainting is required
- No protective coating maintenance is needed
- Only basic cleaning may be required in some environments
5. Estabilidade Estrutural
Corten steel cladding maintains good mechanical properties:
| Propriedade | Valor típico |
|---|---|
| Força de rendimento | ≥ 345 MPa |
| Resistência à tracção | 485–630 MPa |
| Corrosion Mode | Surface-only, self-limiting |
The corrosion does not continuously penetrate like ordinary steel.
Important Environmental Conditions for Stable Rust Formation
The protective patina does not form correctly in all environments.
Good conditions include:
- Alternating wet and dry cycles
- Outdoor exposure with air circulation
- Urban or rural atmospheric environments
Poor conditions include:
- Constant humidity or water immersion
- Marine splash zones (high salt exposure)
- Poor drainage or water trapping areas
In unsuitable environments, rust may remain unstable and continue to corrode.
Why Corten Steel Is Used for Cladding Systems
Rusted steel cladding is widely used because it combines:
- Structural strength of steel
- Decorative rust aesthetics
- Natural protective surface behavior
- Long service life with low maintenance
It is especially popular in:
- Modern architectural façades
- Edifícios comerciais
- Cultural buildings and museums
- Landscape walls and partitions
- Industrial-style exterior design












