Burrs & scratches
Detect, identify and quantify 3D microdefects with Optocomb 3D scanners
- Visual inspection of 3D microdefects
- Full 3D profile of 3D microdefects
- 1 micrometer resolution
- Fast & automated scanning
- User-friendly measurement and analysis
- Automated detection of microdefects
- Extracts the 3D dimensions of micro-defects
- Automated inspection report generation
- Export your data and inspection reports
3D microdefects detection
Engineering is a world where quantitative judgment should and can be made, but this has often been difficult to achieve on a manufacturing floor dominated by human inspection. With the automated inspection solutions offered by XTIA, quantitative inspection and engineering of micrometer defects is finally possible: with their 1μm resolution, our Optocomb 3D scanners have a reliable track record for the fast detection, identification and quantification of a large range of 3D defects such as dents, scratches, particles, burrs and more.
Burrs
For example, Optocomb 3D scanners by XTIA can detect micro-defects such as this 40-μm-high burr appearing at a machined edge. Burrs are a constant battle for machined parts. Yet, they often lead to significant dysfunction during the assembly process or the final product operation. The detection of burrs is thus crucial but difficult, because they are typically a few tens of μm high and are rarely generated on a flat surface: they often occur at the back of complex structures that are extremely difficult to inspect with traditional methods. By contrast, users of Optocomb 3D scanners can leverage their coaxial configuration and long working distance to easily inspect burrs within complex structures. In particular, with its 1 μm resolution, our M5 ultra-high resolution scanner can be a fast and reliable solution for your burrs inspection process.
Defects in bores
Many medium and large parts have cylindrical features that need to meet high quality requirements and the ever-demanding design of modern manufacturing. XTIA has thus developed its Helical Scan. It combines XTIA's high-resolution Optocomb sensor with a rotating mirror that translates within the structure along its rotating axis to probe the inner walls of bores. With Helical Scan, you can dive deep into bores and perform the visual inspection of the smallest particles, scratches and bulges of your manufactured parts: cylinder blocks, bearings and more.
Automated inspection
Optocomb Suite, XTIA's comprehensive metrology software can leverage the 3D Optocomb data to fully automate the inspection process. Its powerful detection algorithms can not only detect and identify microdefects, but also quantify their three-dimensional dimensions in an instant. Based on your own manufacturing criteria, Optocomb Suite will automatically assess the quality of your part and generate inspection reports. With such an automated toolbox, the human eye is no longer required to assess the quality of manufactured parts, and manufacturers can rationalize their production system.
Some OEMs using OptoComb 3D scanners on their manufacturing lines
Interested in a demonstration or a free test measurement of your sample? Contact us!
Burrs & scratches
Detect, identify and quantify 3D microdefects with Optocomb 3D scanners
- Visual inspection of 3D microdefects
- Full 3D profile of 3D microdefects
- 1 micrometer resolution
- Fast & automated scanning
- User-friendly measurement and analysis
- Automated detection of microdefects
- Extracts the 3D dimensions of micro-defects
- Automated inspection report generation
- Export your data and inspection reports
3D microdefects detection
Engineering is a world where quantitative judgment should and can be made, but this has often been difficult to achieve on a manufacturing floor dominated by human inspection. With the automated inspection solutions offered by XTIA, quantitative inspection and engineering of micrometer defects is finally possible: with their 1μm resolution, our Optocomb 3D scanners have a reliable track record for the fast detection, identification and quantification of a large range of 3D defects such as dents, scratches, particles, burrs and more.
Burrs
For example, Optocomb 3D scanners by XTIA can detect micro-defects such as this 40-μm-high burr appearing at a machined edge. Burrs are a constant battle for machined parts. Yet, they often lead to significant dysfunction during the assembly process or the final product operation. The detection of burrs is thus crucial but difficult, because they are typically a few tens of μm high and are rarely generated on a flat surface: they often occur at the back of complex structures that are extremely difficult to inspect with traditional methods. By contrast, users of Optocomb 3D scanners can leverage their coaxial configuration and long working distance to easily inspect burrs within complex structures. In particular, with its 1 μm resolution, our M5 ultra-high resolution scanner can be a fast and reliable solution for your burrs inspection process.
Defects in bores
Many medium and large parts have cylindrical features that need to meet high quality requirements and the ever-demanding design of modern manufacturing. XTIA has thus developed its Helical Scan. It combines XTIA's high-resolution Optocomb sensor with a rotating mirror that translates within the structure along its rotating axis to probe the inner walls of bores. With Helical Scan, you can dive deep into bores and perform the visual inspection of the smallest particles, scratches and bulges of your manufactured parts: cylinder blocks, bearings and more.
Automated inspection
Optocomb Suite, XTIA's comprehensive metrology software can leverage the 3D Optocomb data to fully automate the inspection process. Its powerful detection algorithms can not only detect and identify microdefects, but also quantify their three-dimensional dimensions in an instant. Based on your own manufacturing criteria, Optocomb Suite will automatically assess the quality of your part and generate inspection reports. With such an automated toolbox, the human eye is no longer required to assess the quality of manufactured parts, and manufacturers can rationalize their production system.
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