Metal Fabrication

High-Precision Metal Fabrication


Reliable, scalable, and quality-driven metal fabrication solutions for global industries.

Metal fabrication is a multi-stage manufacturing process in which metal materials are transformed into industrial components through cutting, forming, drilling, bending, welding, machining, and surface finishing operations. It is a broad engineering discipline that includes sheet metal processing, structural fabrication, welded assemblies, machining integration, and advanced surface treatment.

The primary purpose of metal fabrication is to produce mechanical parts and structures that fully comply with technical drawings while ensuring high strength, dimensional stability, repeatability, and operational reliability.

Technical Processes in Metal Fabrication

Metal fabrication typically involves the combination of several advanced processes depending on project requirements:

1. Sheet Metal Cutting & Forming

• Laser Cutting

  • Fiber or CO₂ laser technology
  • ±0.1 mm precision
  • Minimal heat-affected zone
  • Ideal for steel, stainless steel, and aluminum sheets

• Plasma Cutting

  • Suitable for medium and thick materials
  • High cutting speed for heavy-duty parts

• CNC Press Brake Bending

  • Multi-axis CNC bending
  • Angle compensation and springback control
  • Complex bending geometries with repeatable accuracy

2. Mechanical Forming & Profile Processing

• Tube & Profile Bending

  • Precision radius control
  • Suitable for steel, stainless, and aluminum profiles

• Roll Forming

  • Continuous forming for long profiles
  • High consistency and dimensional stability

3. Welding Fabrication

Welding is one of the most critical stages in metal fabrication:

• MIG/MAG Welding

  • High strength joints
  • Efficient for carbon steels and alloyed metals

• TIG Welding

  • Ideal for stainless steel and aluminum
  • Clean, aesthetic, and precise welds

• Arc Welding & Specialized Processes

  • Suitable for heavy-gauge and structural components

Post-weld processes such as stress relieving, heat treatment, and dimensional correction can also be applied.

4. Machining Integration

Fabricated parts are often finalized with precision machining to achieve critical tolerances:

  • Drilling
  • Milling operations
  • Face machining
  • Slotting and pocketing
  • Tolerance refinement
  • Machining of bearing or mounting surfaces

This integration ensures technical accuracy and structural reliability.

5. Surface Treatment & Finishing-

Surface finishing enhances durability, corrosion resistance, and visual quality:

  • Sandblasting
  • Powder coating
  • Zinc plating (Galvanizing)
  • Anodizing (Aluminum)
  • Chemical polishing
  • Passivation

These treatments significantly improve long-term performance and aesthetic appearanc.

Technical Advantages of Metal Fabrication

• High Structural Strength

Optimized material selection, welding techniques, and engineering calculations.

• Dimensional Stability & Repeatability

CNC-controlled cutting and bending minimize variance.

• Wide Range of Materials

  • Steel (S235 / S355)
  • Stainless steel (304 / 316)
  • Aluminum (6061 / 6082)
  • High-performance alloys

• Modular & Scalable Production

Applicable to prototypes, low-volume batches, and mass production.

• Complex Structure Capability

Frames, housings, enclosures, machine chassis, support structures, and more.

Industrial Applications

  • Machinery and equipment manufacturing
  • Automation systems
  • Industrial enclosures and cabinets
  • Steel structures and frameworks
  • Robotic system housings
  • Medical and precision equipment frames
  • Automotive sub-components
  • Custom-designed industrial assemblies