Precision Across Verticals

01 / Aerospace & eVTOL

Zero-Tolerance Integration

Critical flight hardware requires uncompromising measurement security. We provide the structural metrology needed to validate turbine geometries, airfoil profiles, and complex assembly interfaces.

Our aerospace specialists focus on the high-fidelity inspection of critical-to-safety components. Whether analyzing internal cooling channel blockages via industrial CT or performing multi-sensor validation of blisk geometries, we ensure every micron is accounted for. We support global engine manufacturers and eVTOL startups in securing their production ramp-up through robust, automated inspection logic that minimizes human error.

By utilizing our offline programming capability, aerospace labs can eliminate machine downtime, ensuring that the CMM is always measuring, never waiting for a programmer to debug a routine on the live machine.

• • Surface Form Deviation: Analyzing 3D cloud-to-CAD variance for complex freeform aero-profiles.
• • AS9102 FAI: Full First Article Inspection support for rapid supplier approval.
• • Non-Destructive Voxel Mapping: Internal defect detection for additive-manufactured aerospace bracketry.

02 / E-Mobility & Automotive

High-Volume Fidelity

Transitioning to EV platforms demands new measurement methodologies for battery housings, stator assemblies, and high-precision gearbox components.

The shift to E-Mobility has compressed automotive launch cycles to unprecedented levels. We help Tier-1 suppliers maintain parity with these speeds by deploying rapid-scanning strategies and automated SPC (Statistical Process Control) loops. From validating the flatness of massive battery cooling trays to the sub-micron inspection of electric motor stators, our technology ensures that high volume never comes at the cost of high quality.

We integrate directly with your shop-floor data management systems (like ZEISS PiWeb or Hexagon Q-DAS), providing real-time visibility into manufacturing trends and allowing for proactive machine adjustments before parts fall out of tolerance.

• • Stator Surface Scanning: Continuous active scanning of hair-pin and winding geometries.
• • Battery Tray Coplanarity: Large-scale laser scanning for thermal management verification.
• • Inline Gaging Automation: Replacing manual gages with flexible, automated multi-sensor CMM cells.

03 / Medical Technology

Biocompatible Precision

Orthopedic implants and surgical robotics require perfect surface form and sub-micron dimensional adherence to ensure biocompatibility and functional longevity.

Working within the strictures of ISO 13485, we provide the validated inspection routines necessary for orthopedic hip, knee, and spinal implants. Our tactile scanning strategies are optimized to capture the high-point density required for sphericity analysis and complex multi-curvatures, while our non-contact optical solutions rapidly verify the surface finish of cast and additive-manufactured surgical instruments.

We support medical device manufacturers in developing robust V&V (Validation and Verification) protocols, ensuring that every component arriving in the operating theater meets the exact mathematical intent of the design engineer.

• • Surface Curvature Analysis: Validating the complex T-form of orthopedic joint interfaces.
• • Validation Support (IQ/OQ/PQ): Mathematical proof for regulatory equipment qualification.
• • Micro-Geometry Inspection: Inspecting stent and valve components down to the sub-millimeter scale.