Welding
At Inovocorte, welding is executed with full technical control.
We combine certified manual welding, high-repeatability robotic welding, and precision jigs to ensure continuous welds, uniform penetration and thermal stability.
We work with MIG, TIG and Laser welding, supported by defined WPS, parameter monitoring, and both destructive and non-destructive testing (VT, PT, macro/micro analysis and tensile tests) to validate structural integrity, strength and finish quality.
Mig Welding
MIG welding at Inovocorte is executed with advanced welding engineering, metallurgical control, and specific distortion-management techniques, ensuring structurally sound joints, stable weld beads, and dimensional accuracy. We combine certified welders, robotic MIG cells, and internally designed and manufactured jigs to guarantee a highly repeatable MIG process suitable for the production of high-precision metal components.
Structural Integrity & Welding Engineering
Every weld bead is defined through welding engineering, thermo-mechanical control, and precise parameter selection. Inovocorte adjusts voltage, amperage, wire-feed speed, shielding gas composition and travel speed to ensure accurate penetration, uniform bead geometry, controlled HAZ, and porosity-free welds.
We execute continuous welding, tack welding, multi-pass welding, and butt, fillet and lap joints, all with validated quality.
Industrial Repeatability
The stability and repeatability of our MIG welding process result from the combination of certified manual welders, robotic MIG systems, and continuous monitoring of critical parameters. We track heat input, energy per unit length, torch wear and thermal response to ensure identical weld beads and consistent tolerances across batches.
Our key differentiator is our active distortion control, supported by dedicated jigs, geometric compensation, optimized weld sequencing, and controlled thermal dissipation.
Technical Versatility
Our MIG welding process is fully adapted to carbon steel, stainless steel, and aluminium, with parameters calibrated for each material, thickness, and joint configuration.
This process is fully integrated with laser cutting, CNC bending, machining and stamping, allowing us to anticipate cumulative deformation, align tolerances throughout the flow, and deliver welded assemblies ready for final assembly with zero rework.
TIG Welding
TIG welding at Inovocorte is a high-precision process designed for metal components that demand superior finish, structural stability and strict thermal control. Through the combination of advanced welding engineering, fine arc control and distortion-management techniques, we produce ultra-clean, aesthetically flawless and technically reliable welds.
Precision & Welding Engineering
The first pillar of our TIG capability is complete technical mastery of the process. This level of control ensures weld beads with no spatter, no porosity, minimal HAZ, exact penetration and consistently stable geometry — both on thin-gauge materials and on critical joint configurations.
Whenever required, we qualify procedures through WPS/WPQR and perform macroetch tests, tensile tests, bend tests, penetrant testing, visual inspection and dimensional verification, ensuring full compliance with standards and customer specifications.
Repeatability & Distortion Control
TIG welding is known for its precision — Inovocorte elevates that precision through robust process engineering and systematic distortion control.
We monitor heat input, weld sequence, heat dissipation and the thermal behaviour of the part, ensuring that each weld bead maintains identical geometry and positioning across the entire production run.
We employ in-house engineered and manufactured welding jigs designed to stabilize the workpiece, compensate for stresses and eliminate predictable distortions, resulting in components that strictly maintain the tolerances defined in the technical drawing, even under multi-pass or complex welding conditions.
Material Versatility & Premium Finish
Inovocorte’s TIG welding adapts seamlessly to sensitive and high-performance materials, including stainless steel (304, 316, 321) and aluminium alloys (6000/7000 series), always guaranteeing a superior aesthetic finish.
Full integration with laser cutting, CNC bending, machining and stamping allows us to anticipate cumulative deformation and deliver TIG-welded subassemblies ready for final assembly, with no rework and with a perfectly controlled finish.
Laser Welding
Laser welding at Inovocorte is a high-technology process designed for components that demand extreme precision, absolute dimensional stability, and superior technical finish. Using high-energy density laser beams, we weld with minimal distortion, narrow weld beads and deep penetration, ensuring reliable joints even on delicate, thin or highly complex geometries.
Thermal Control & Distortion-Free Welding
Laser welding is the most advanced process for achieving minimal HAZ and virtually zero distortion.
Inovocorte uses precision laser systems to concentrate energy into an extremely small focal area, allowing us to weld thin materials, delicate geometries and critical joints with dimensional stability that MIG or TIG cannot match.
The result is ultra-clean welds, free from spatter or contamination, with mechanical properties fully preserved — essential for electronics, automation, fine machinery and high-value visible components.
Deep Penetration & High-Strength Narrow Welds
The laser beam enables deep penetration welding, producing narrow weld seams with exceptionally high mechanical strength. This precise control of the melt pool allows us to create deep, narrow joints ideal for technical components, difficult assemblies and internal geometries requiring millimetric accuracy.
The high energy density ensures consistent, stable welds with an excellent strength-to-width ratio, making it ideal for complex or hard-to-reach structural joints.
Speed, Automation & Advanced Productivity
Laser welding combines precision with exceptionally high industrial speed, operating several times faster than MIG or TIG. It requires minimal joint preparation, ensures perfect repeatability and integrates seamlessly with robots, CNC systems and 3D scanners, enabling stable, high-performance processes for advanced prototyping, small batches or large-scale manufacturing.
This makes laser welding the preferred technology for electronics, precision equipment and aesthetically demanding products.
Post-Welding Finishing
Post-welding finishing is a critical stage for ensuring the reliability, aesthetics, and dimensional accuracy of any metal component.
At Inovocorte, we treat this phase as an engineering discipline, applying rigorous methodologies, advanced technology and continuous metrological control to guarantee clean surfaces, controlled edges, and assembly-ready components.
Precision Finishing: Manual & Robotic
We combine manual deburring with robotic finishing cells, ensuring craftsmanship where required and absolute repeatability for medium and high-volume production.
Manual Deburring
Performed by skilled technicians, ideal for:
- Removing burrs, spatter, and projections without altering tolerances
- Aesthetic finishing for visible or premium components
- Fine adjustment of sensitive geometries or hard-to-reach areas
- Preparing parts for subsequent processes (painting, assembly)
Robotic Deburring
Robotic finishing cells ensure:
- Piece-to-piece repeatability
- Geometric stability and reduced variability
- Precise control of pressure, speed, and abrasive parameters
- Consistent quality across high-volume production
- Compatibility with automated assembly lines
What the experts say
WHY INOVOCORTE
We can...
Deliver dimensional repeatability across thousands of parts with robotic welding, in-house jigs, and zero drift even in high-volume production
Master distortion control with anti-distortion jigs designed in-house and engineering-driven thermal sequencing that keeps geometry intact from drawing to assembly
Validate every weld through complete WPS/WPQR definition with heat input control, HAZ management, and metallurgical validation meeting international standards
Execute precision finishing as an engineering discipline with robotic and manual deburring delivering spatter-free surfaces ready for painting or assembly
Maintain engineering rigor while delivering competitive lead times with complete welded subassemblies, validated processes, and guaranteed final dimensions
Integrate the entire production chain from laser cutting to assembly ensuring consistent tolerances, technical alignment, and a single predictable partner for complete welded subassemblies
A Commitment to Quality
All welding at Inovocorte follows rigorous inspection protocols and complies with ISO 9001 certified standards. Every joint undergoes dimensional verification using calibrated three-dimensional measurement arms. Welding procedures are qualified according to international standards. Non-destructive testing (NDT) available when specified. First Article Inspection (FAI) protocols ensure consistency from first piece to final production run.
