THERMOBOT | Autonomous robotic system for thermo-graphic detection of cracks

Summary

Non-destructive testing of components is an important auxiliary process step, not only in post-production but also in regular maintenance. The detection of cracks is currently done by using magnetic particle inspection, which is a decades-old, inefficient and ecologically undesirable process.

There is an urgent need in industry to replace this technology with more up-to-date methods that provide fully automatic testing. This project thus aims at the development of an autonomous robotic system for the inspection of metallic and composite parts using thermography.

By combining automatic path planning for robots using a process model of thermographic image acquisition and knowledge-based image analysis methods, an inspection robot will be developed that can adapt to new parts within 15 minutes and achieve cycle times in a range of 20-30 seconds.

Applications include inspection of metallic and composite parts in the automotive and aircraft industry as well as inspection during regular maintenance, mainly in the aircraft industry, where magnetic particle inspection is often a requirement.

Market estimates show a potential of more than 1000 such inspection systems within 5-7 years after the end of the project. Despite a higher initial investment (compared to magnetic particle inspection) the robotic inspection system will save more than 400kEUR after 5 years of operation, thus contributing to a substantial increase in efficiency in these tasks. Furthermore, ecologically undesirable suspensions of magnetic particles that include corrosion-inhibitors can be avoided.

The consortium consists of technology providers in robotics, industrial inspection and thermographic cameras and end-users that cover metallic and composite parts in the automotive and aircraft industry. SMEs play a leading role in the project and contribute 60% of the total effort.

Unfold all
/
Fold all
More information & hyperlinks
Web resources: http://www.thermobot.eu
https://cordis.europa.eu/project/id/284607
Start date: 01-01-2012
End date: 31-12-2014
Total budget - Public funding: 3 504 054,00 Euro - 2 550 000,00 Euro
Cordis data

Original description

Non-destructive testing of components is an important auxiliary process step, not only in post-production but also in regular maintenance. The detection of cracks is currently done by using magnetic particle inspection, which is a decades-old, inefficient and ecologically undesirable process. There is an urgent need in industry to replace this technology with more up-to-date methods that provide fully automatic testing. This project thus aims at the development of an autonomous robotic system for the inspection of metallic and composite parts using thermography. By combining automatic path planning for robots using a process model of thermographic image acquisition and knowledge-based image analysis methods, an inspection robot will be developed that can adapt to new parts within 15 minutes and achieves cycle times in the range of 20-30 seconds.
Applications include inspection of metallic and composite parts in the automotive and aircraft industry as well as inspection during regular maintenance, mainly in the aircraft industry, where magnetic particle inspection is often a requirement. Market estimates show a potential of more than 1000 such inspection systems within 5-7 years after the end of the project. Despite a higher initial investment (compared to magnetic particle inspection) the robotic inspection system will save more than 400kEUR after 5 years of operation, thus contributing to a substantial increase in efficiency in these tasks. Furthermore, ecologically undesirable suspensions of magnetic particles that include corrosion-inhibitors can be avoided.
The consortium consists of technology providers in robotics, industrial inspection and thermographic cameras and end-users that cover metallic and composite parts in the automotive and aircraft industry. SMEs play a leading role in the project and contribute 60% of the total effort.

Status

ONG

Call topic

FoF.NMP.2011-3

Update Date

27-10-2022
Geographical location(s)
Structured mapping
Unfold all
/
Fold all

Factories of the Future Partnership - Made in Europe Partnership

FP7 - Factories of the Future
FP7-FoF-2011
FoF.NMP.2011-3 - Robots for automation of post-production and other auxiliary processes
Small or medium-scale focused research project (STREP)
Economic sustainability
Comment: http://thermobot.eu/wp-content/uploads/2011/09/20130409_UNIPD_Crack_detection_HES-13.doc
Environmental sustainability
Circular economy
Comment: http://thermobot.eu/wp-content/uploads/2011/09/20130920_Thermobot_Video_update.wmv
Reducing the consumption of water and other process resources.
Comment: http://thermobot.eu/wp-content/uploads/2011/09/20130409_Profactor_Towards_semiautonomous_inspection_HES-13.doc
Manufacturing the products of the future
Resource efficient, sustainable products
Comment: http://thermobot.eu/wp-content/uploads/2011/09/20130129_Press_release_ENG.doc
C MANUFACTURING
C25 Manufacture of fabricated metal products, except machinery and equipment
C29 Manufacture of motor vehicles, trailers and semi-trailers