Industrial applications

3D measurement for industries where deviation becomes cost fast.

We step in when a part, fixture, mold, structure or inspection routine must be measured, compared, documented or automated so a technical decision can move forward.

Where it applies

Each industry changes the risk, the environment and the evidence needed.

The same scanner or method does not solve every case. We tune the measurement strategy around tolerance, part size, access, repeatability and the decision the report must support.

3D measurement in automotive applications

Automotive and suppliers

Validation of parts, fixtures, assemblies and try-out with CAD comparison, deviation maps and reports for engineering, quality and suppliers.

Dimensional report for industrial manufacturing

Industrial manufacturing

Dimensional control for batches, prototypes, fixtures and manufactured products when the technical discussion must move from opinion to data.

3D inspection for oil, gas and energy

Energy, oil and gas

Field measurement, wear evaluation, repairs, hard-to-access components and 3D documentation for maintenance or engineering decisions.

Control fixture for dimensional inspection

Tooling and fixtures

Validation of gauges, fixtures, molds, tools and control media before using the reference as the basis for approval.

3D measurement of large parts and structures

Large parts and structures

Portable measurement for structures, assemblies and large equipment where disassembly or lab transfer does not make sense.

Process validation with 3D measurement

Process validation

Measurement routines to track repeatability, release production, reduce rework and turn results into controlled history with KeyStats when needed.

CAD comparison and 3D measurement

Method before tool

The goal is a decision, not only a point cloud.

We evaluate the problem before choosing a scanner, arm, tracker, sensor or automated routine. The deliverable has to answer the technical question in the project.

  • CAD vs part comparison, deviation maps, sections and critical features.
  • Reports for quality, engineering, suppliers, audits or end customers.
  • 3D scanning and reverse engineering when the real geometry must return to CAD.
  • Automation and KeyStats when measurement needs to repeat and become controlled history.

How we run it

A simple flow to reach the right data.

  1. 1

    Diagnose

    We review part, tolerance, CAD, environment, timing and expected decision.

  2. 2

    Strategy

    We define method, alignment, critical points, repeatability and delivery format.

  3. 3

    Measure

    We execute the survey, inspection or routine according to the process need.

  4. 4

    Deliver

    We organize deviations, evidence, files and next steps for the technical decision.

If there is a critical part, a fixture to validate or a routine that must be repeated, send the case and we will review the best path.