Fast Ultrasonic Weld Inspection for wind components

Get automated weld inspection that supports continuous production and decision-making for wind energy manufacturing teams.

The Fast Ultrasonic Weld Inspection (FUWI) unit is an automated inspection solution used by production, quality and inspection teams in wind energy manufacturing where towers, monopiles and transition pieces are produced at scale. The need typically arises when weld inspection must keep pace with continuous production without slowing the flow of large structures through the line. When inspection depends on manual or semi-automatic approaches, limited capacity and delayed feedback can increase roller time, create bottlenecks and postpone corrective actions.

Automated inspection in continuous production

By allowing weld inspection to be carried out as components move through production, the product replaces uncertainty with consistent insight into weld condition and geometry. This helps teams maintain throughput, reduce delays and document weld quality throughout fabrication. The service is part of our expertise area Inspection and non-destructive testing (NDT).

Automated ultrasonic inspection unit mounted on a mobile platform for high-speed evaluation of circumferential and longitudinal welds on large steel sections used for wind towers, transition pieces and monopiles. — Automated ultrasonic weld inspection system mounted on a mobile platform inspecting a large cylindrical wind component during production.

Challenges

When weld inspection becomes a bottleneck in  production, uncertainty disrupts flow and delays corrective actions for wind energy manufacturing teams. 

Manual inspection slows production flow
Manual or semi-automatic weld inspection is time-consuming and often cannot keep pace with continuous production, increasing roller time and creating bottlenecks as large structures move through the line.

Limited inspection capacity delays feedback
Dependence on qualified NDT operators that are difficult to recruit can delay inspection results, leaving production and quality teams without timely input to address weld issues.

Inconsistent inspection data increases uncertainty
Variation in manual inspection approaches can lead to inconsistent information on weld condition, making it harder to assess quality and decide when corrective actions are needed.

Delayed corrective actions increase risk and rework
When weld quality issues are identified late, corrective actions are postponed, increasing the risk of rework, production delays and disrupted fabrication schedules.

Benefits

Inspection can be carried out at the speed of welding for higher output and fewer delays.

Cut ultrasonic testing costs by up to 95 %

Inspection keeps pace with welding, reducing roller time and preventing delays on towers, monopiles and transition pieces.

Reduce operator time

One operator manages scanning and evaluation using FUWI hence reducing dependence on scarce NDT personnel and lower annual labour costs. 

Achieve payback in less than 12 months

Lower staffing demand, faster inspection and less need of roller time supports payback in less than 12 months.

Let's make sure you have the right inspection setup

Share a few details about your fabrication setup to receive a tailored quote and an outline of how automated weld inspection can be integrated into your tower, monopile and transition-piece production.

Service scope

Technical capabilities and system configuration

The system operates on a 64/128-channel phased array ultrasonic testing platform supporting multi-probe operation. Time of Flight Diffraction channels run alongside phased array inspection for weld-root and through-wall defect characterisation together with pulse-Echo for transverse cracks. Phased array, ToFD, Pulse-Echo and high-resolution 3D surface data are acquired in a single workflow. Material thicknesses up to 150 mm can be inspected on typical monopile, tower and transition-piece sections.  Other wind energy components may require methods such as wind turbine blade inspection.

A multi-jointed arm with six degrees of freedom ensures controlled probe positioning along large curved structures. Laser-based seam tracking maintains alignment with the weld centreline during movement. Circumferential welds are inspected in a single rotation, with direct transition to longitudinal welds without reconfiguration. The scanner is mounted on an industrial forklift for stable positioning along large wind-component sections.

Phased array, ToFD, Pulse-Echo and 3D geometrical data are acquired simultaneously with continuous positional referencing. Real-time analysis identifies weld geometry, signal responses and indication locations during scanning. All data is recorded, evaluated and reported within a single workflow, with automatic export to local servers or cloud storage. Output supports quality assurance and Advanced APQP systems. 

Inspection speeds reach up to 30 mm per second, matching welding speed for typical wind-component fabrication. Circumferential welds are evaluated in one complete revolution. The system maintains stability on rotating sections and tracks long seam welds across large diameters without interrupting production. High-resolution 3D scans provide additional context for weld geometry and structural deformation when required.

Standards

Inspection aligned with recognised quality frameworks

General principles for ultrasonic testing
Ultrasonic testing of welds
Time of Flight Diffraction (ToFD) for weld inspection
Phased array ultrasonic testing of welds

Related services and facilities

All services

Related insights

All insights

Reach out to Lars Holmberg for more information.

Fast Ultrasonic Weld Inspection for automated inspection of welds in wind structures

Get automated weld inspection that supports continuous production and decision-making for wind energy manufacturing teams.

Automated inspection in continuous production

When weld inspection becomes a bottleneck in  production, uncertainty disrupts flow and delays corrective actions for wind energy manufacturing teams.

Inspection can be carried out at the speed of welding for higher output and fewer delays.

Let's make sure you have the right inspection setup

Technical capabilities and system configuration

Inspection aligned with recognised quality frameworks

ISO 16810

ISO 17640

EN ISO 10863

EN ISO 13688

Related services and facilities

Related insights

Inspection can be carried out at the speed of welding for higher output and fewer delays.

Technical capabilities and system configuration

ISO 16810

ISO 17640

EN ISO 10863

EN ISO 13688

Related services and facilities

Related insights

Get automated weld inspection that supports continuous production and decision-making for wind energy manufacturing teams.

Automated inspection in continuous production

When weld inspection becomes a bottleneck in production, uncertainty disrupts flow and delays corrective actions for wind energy manufacturing teams.

Inspection can be carried out at the speed of welding for higher output and fewer delays.

Let's make sure you have the right inspection setup

Technical capabilities and system configuration

Inspection aligned with recognised quality frameworks

ISO 16810

ISO 17640

EN ISO 10863

EN ISO 13688

Related services and facilities

Related insights

Inspection can be carried out at the speed of welding for higher output and fewer delays.

Technical capabilities and system configuration

ISO 16810

ISO 17640

EN ISO 10863

EN ISO 13688

Related services and facilities

Related insights

When weld inspection becomes a bottleneck in  production, uncertainty disrupts flow and delays corrective actions for wind energy manufacturing teams. 