In the new IGF research project “SteP-in”, the SKZ Plastics Center and the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM are using several non-destructive testing methods to advance the quality assurance of sealing compounds. Modern techniques such as air ultrasound and optical profilometry are used to determine the curing progress inline and AI-based curing models are developed. Air inclusions and other defects are to be detected using a new thermography technique.
Due to their comprehensive functions, sealants have many areas of use, from everyday applications in the home to high-performance applications in the aerospace industry. During application, the curing time specified by the manufacturer is often used and a safety factor is applied or in-process measurements are carried out on separate samples. The additional effort or unnecessarily long holding times before the next process steps are accepted.
Use of airborne ultrasound and optical profilometry
To enable a more efficient process, the SKZ and Fraunhofer IFAM are currently researching non-contact testing methods that can be used to determine the curing progress inline. Air-coupled ultrasound, or air ultrasound for short, and optical profilometry are being used for this purpose. Air ultrasound can be used to determine changes in the density or elastic properties of the sealant, while optical profilometry can measure shrinkage during curing with a resolution in the µm range.
Training artificial intelligence
The measured variables, together with other influencing factors such as ambient temperature and humidity, are to be used to train an artificial intelligence. This will enable curing models to be developed that can be used to reliably determine the progress of curing. Various sealants and different joint shapes are to be investigated in order to design the methods for industrial application. In the further course of the project, the measurement methods will also be tested on real components.
Detection of typical defects
Another part of the research project is to develop a measuring method that can be used to detect typical defects such as air inclusions or detachments in the seals. Such defects are usually not noticeable during a visual inspection, but can significantly limit the performance of the application or even lead to a safety risk. A measurement approach based on active thermography, in which the component is periodically heated with several flashes of light, is being further developed for this purpose.
Search for interested companies
Interested companies can participate in the project free of charge and without obligation as part of a project support committee and thus gain first-hand pre-competitive research results. There is also the opportunity to test the measurement techniques on the individual products of the companies on the project committee. In this way, interested companies can directly assess the suitability of the inline-capable methods for themselves.
About the project:
The newly launched IGF research project 01IF23269N with the short title “SteP-in” builds on the findings of the completed project “Curing monitoring of sealants” (IGF 20427 N) and is funded via the DLR as part of the program for the promotion of joint industrial research and development by the Federal Ministry of Economics and Climate Protection on the basis of a resolution of the German Bundestag. The SKZ is grateful for the financial support.
More about non-destructive testing at SKZ
Due to their comprehensive functions, sealants have many areas of use, from everyday applications in the home to high-performance applications in the aerospace industry. During application, the curing time specified by the manufacturer is often used and a safety factor is applied or in-process measurements are carried out on separate samples. The additional effort or unnecessarily long holding times before the next process steps are accepted.
Use of airborne ultrasound and optical profilometry
To enable a more efficient process, the SKZ and Fraunhofer IFAM are currently researching non-contact testing methods that can be used to determine the curing progress inline. Air-coupled ultrasound, or air ultrasound for short, and optical profilometry are being used for this purpose. Air ultrasound can be used to determine changes in the density or elastic properties of the sealant, while optical profilometry can measure shrinkage during curing with a resolution in the µm range.
Training artificial intelligence
The measured variables, together with other influencing factors such as ambient temperature and humidity, are to be used to train an artificial intelligence. This will enable curing models to be developed that can be used to reliably determine the progress of curing. Various sealants and different joint shapes are to be investigated in order to design the methods for industrial application. In the further course of the project, the measurement methods will also be tested on real components.
Detection of typical defects
Another part of the research project is to develop a measuring method that can be used to detect typical defects such as air inclusions or detachments in the seals. Such defects are usually not noticeable during a visual inspection, but can significantly limit the performance of the application or even lead to a safety risk. A measurement approach based on active thermography, in which the component is periodically heated with several flashes of light, is being further developed for this purpose.
Search for interested companies
Interested companies can participate in the project free of charge and without obligation as part of a project support committee and thus gain first-hand pre-competitive research results. There is also the opportunity to test the measurement techniques on the individual products of the companies on the project committee. In this way, interested companies can directly assess the suitability of the inline-capable methods for themselves.
About the project:
The newly launched IGF research project 01IF23269N with the short title “SteP-in” builds on the findings of the completed project “Curing monitoring of sealants” (IGF 20427 N) and is funded via the DLR as part of the program for the promotion of joint industrial research and development by the Federal Ministry of Economics and Climate Protection on the basis of a resolution of the German Bundestag. The SKZ is grateful for the financial support.
More about non-destructive testing at SKZ
