Tailored for Engineering and Creative Companies

3D scanning Services

We offer professional 3D scanning services, delivering High-Precision scans for various applications. We’re also specialises in CAD reverse Engineering, providing accurate models based on scanned data.

3D Scanning Service for a Broad Range of Markets

Unlock the Future with Expert 3D Scanning Services

3D scanning produces an STL file, a versatile format ideal for rapid prototyping, FEM simulation, and metrological inspection. This precise data allows for quick prototype creation, efficient finite element analysis to assess performance, and reliable quality control through accurate measurements. With STL files, you can streamline your design process and ensure optimal results.

Why Use 3D Scanning?

3D scanning has become a vital tool for engineering companies, offering precision and efficiency in capturing complex geometries. By creating detailed, accurate digital models of physical objects, it allows engineers to analyse designs, perform simulations, and detect potential issues before they arise. This technology streamlines the design and prototyping process, reduces costly errors, and enhances overall productivity. Moreover, 3D scanning enables easy integration with other advanced technologies like CAD software, further improving workflow and collaboration. In a competitive industry where accuracy and speed are paramount, adopting 3D scanning can provide significant advantages to engineering companies.

What is Reverse Engineering?

CAD reverse engineering from 3D scan data is the process of creating a digital model of an existing physical object using 3D scanning technology. The scanned data is used to capture the precise geometry of the object, which is then translated into a CAD (Computer-Aided Design) model. This process allows engineers to replicate, modify, or improve upon existing designs, even when original blueprints or specifications are unavailable. Reverse engineering from 3D scan data is especially useful for creating custom parts, restoring outdated components, or improving the design of complex structures. It combines the accuracy of 3D scanning with the flexibility of CAD design, enabling greater innovation and efficiency in product development.

Years of Experience

µm

Dimensional Accuracy

µm

Resolution point-to-point

all services explained

Professional 3D Scanning Service

We offer a full-service solution, starting with high-precision 3D scanning to capture accurate data. Our team then CAD redesign the model in CAD format, ready for 3D printing or CNC milling. From scan to final file, we ensure seamless integration for your manufacturing needs.

Turn Your Ideas into Reality with Precision 3D Scanning

3D scanning offers unparalleled precision, capturing every detail of your object and creating a faithful digital replica in all its intricacies. Whether you’re designing a prototype, restoring a historic artefact, or crafting bespoke models, our advanced 3D scanning technology opens up new creative possibilities and streamlines every stage of your process. With rapid, accurate, and highly detailed results, we can help you bring your visions to life, ready for production or analysis.

3D Laser Scanning

Ideal for a wide range of application fields: Automotive, Mechanics, Design, Aerospace, Biomedical and Heritage

Photogrammetry

Great solution for capturing 3D models with High-Resolution colour texture

3D Modelling

Creating 3D Models from Scratch and Generating 2D Drawings from 3D Scans

Reverse Engineering

Converting 3D Scan Data into CAD Files (STEP/IGES/PARASOLID) for Precise Design Integration

3D Printing Service

Professional 3D Printing Service: MJF materials (PA12, PA11, TPU) and FDM PLA Large format

Dfam. Design for additive manufacturing

Simplifying Design, Enhancing Manufacturing

Design for Additive Manufacturing (Dfam) is an engineering methodology that optimises product design for 3D printing. Its goal is to simplify geometries, reduce material usage, and enhance manufacturing efficiency while ensuring high performance and cost-effectiveness. DFAM enables full utilisation of additive manufacturing capabilities, resulting in lighter, stronger, and more functional components.