Using optical scanning systems from GOM, we provide a non-contact, three-dimensional scanning service to capture the surfaces of physical products of all types and sectors. With these high-precision structured light systems, we can scan everything from automotive molds to works of art, such as paintings and sculptures, without touching the physical piece and thus risking damage.
Once a physical model has been scanned, it is possible to use three-dimensional modelling software to modify the mesh obtained and transform it into a mathematical CAD model, thus modifying its measurements and geometries for accurate, precise and fast redesign.
A 3D scan can be used to create a mesh that can be compared with a CAD file to verify manufacturing tolerances, dimensions and geometries that make up the component, generating a PDF report that allows companies to control and monitor the manufacturing process, ensuring product quality and reducing production times.
Photogrammetric acquisition, carried out using optical sensors, guarantees maximum precision and accuracy of the measurements, optimising the results, minimising errors and obtaining a network of reference points as the basis for subsequent three-dimensional scanning or punctual dimensional control.
Using technologically innovative and high-precision systems, such as three-dimensional printers, laser cutters or numerically controlled (cnc) milling machines, it is possible to prototype any type of geometry and material and achieve excellent finishes.
To carry out internal and external environmental sc ans we use laser scanning systems or drone photogrammetry, obtaining a cloud of points, which will be the reference point for guaranteeing the final result.
FEM analysis is a digital numerical technique that lends itself perfectly to analysis and solutions in the Automotive or Aeronautics sectors for crash test simulations. We only deal with load tests and static or quasi-static structural tests.
We assemble and mount laser tracker sensors, which are used to scan large objects or for environmental and structural scanning. The accuracy of these sensors is in the range of 0.025 mm.
BIM is a method for optimising the planning, implementation and management of the physical and functional characteristics of an object. It becomes a container of information where graphic data and technical attributes, including those related to the expected life cycle, can be inserted, controlling the phases of execution of the work, managing timeframes, resolving interferences and bringing numerous advantages to builders and contractors.
