Placa de acero inoxidable de 3 mm de espesor.

The thickness of stainless steel plates is closely related to the rolling process. Hot rolling naturally produces thicker materials due to its high-temperature deformation capability and efficiency, mientras cold rolling is limited to thinner, precision sheets due to work hardening and equipment constraints.

A 3placa de acero inoxidable mm is typically classified within the thin-to-medium plate range and is most commonly produced by laminación en caliente, followed by optional annealing and surface finishing. Understanding why this thickness is usually hot rolled—and why hot rolled plates are thicker than cold rolled sheets—requires looking at the manufacturing process.

Typical Hot Rolled Stainless Steel Thickness Range

Hot rolled stainless steel plates cover a much wider thickness range compared to cold rolled products.

Standard Thickness Classification

Product Type Rango de espesor Typical Process
Cold Rolled Sheet 0.3 milímetros – 3.0 milímetros laminación en frío
Hot Rolled Thin Plate 3.0 milímetros – 6.0 milímetros laminación en caliente + recocido
Hot Rolled Medium Plate 6.0 milímetros – 25 milímetros laminación en caliente
Hot Rolled Heavy Plate 25 milímetros – 100+ milímetros laminación en caliente

3 mm thickness sits at the transition point:

  • Can be produced by cold rolling (alta precisión, higher cost)
  • More commonly produced by hot rolling (better efficiency)

Hot Rolling Process of Stainless Steel Plate

Hot rolling is performed at high temperatures, typically above 1000°C, where the steel is in a softened state.

Pasos del proceso

  1. Heating stainless steel slabs to rolling temperature
  2. Passing through multiple rolling stands
  3. Thickness reduction under high الضغط
  4. Controlled cooling after rolling
  5. Optional annealing and pickling

Why Hot Rolled Stainless Steel Is Thicker Than Cold Rolled

1. Deformation Capability at High Temperature

At elevated temperatures:

  • Stainless steel becomes softer
  • Large thickness reductions are possible in fewer passes

This allows production of thicker plates efficiently, which is not feasible in cold rolling.

2. Rolling Equipment Limitations

Cold rolling mills are designed for:

  • Precisión
  • Thin gauge control

They are not suitable for:

  • Large ضخامة thickness reduction
  • Heavy load processing

Como resultado:

  • Cold rolling is typically limited to thinner gauges (≤3 mm)
  • Hot rolling handles thicker sections

3. Work Hardening Effect in Cold Rolling

Introducción del laminado en frío:

  • High internal stress
  • Increased hardness
  • Ductilidad reducida

If thickness is too large:

  • Material becomes too hard to deform
  • Cracking risk increases

Por lo tanto, cold rolling is not efficient for thick plates.

4. Efficiency and Production Cost

Hot rolling advantages for thicker plates:

  • Fewer rolling passes
  • Lower energy consumption per ton
  • Higher production efficiency

This makes hot rolling the preferred method for 3 mm y más espesor.

Surface and Tolerance Differences

Característica Hot Rolled Plate (3milímetros) Cold Rolled Sheet (3milímetros)
Acabado superficial Bruto (No.1) Liso (2B / licenciado en Letras)
Tolerancia de espesor Moderado Alta precisión
Estrés interno Lower after annealing Higher before annealing
Llanura Moderado Excelente

Why 3mm Plate Is Often Hot Rolled

  • Located at the upper limit of cold rolling capability
  • More economical to produce via hot rolling
  • Suitable for structural and industrial applications
  • Does not always require ultra-smooth surface

Application Considerations

3mm stainless steel plate is commonly used in:

  • fabricación estructural
  • Equipos industriales
  • Tanks and containers
  • General engineering components

When higher surface quality or precision is required, cold rolled 3mm sheet may still be selected.

Placa de acero inoxidable de 3 mm de espesor.

Placa de acero inoxidable de 3 mm de espesor.

Precio de la hoja Ss por kg