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Multimodal Non-Destructive Testing Augmented With New Discipline

Spectroscopy by means of ultra-short waves in the terahertz range is a very promising method for volumetric testing in non-conductive materials. It has been integrated for the first time as an additional technology in a multimodal ACCUBOT non-destructive testing (NDT) system from FILL Gesellschaft m.b.H. as part of the three-year “ATTIC” (Automated TeraherTz Imaging of Composites and tooling profiling) project with international involvement run by EUREKA.

Glass-fiber-reinforced plastics (GFRPs) and renewable natural materials, such as wood and cork, are being used ever more widely in industrial lightweight construction. Damage invisible to the naked eye after forming processes and mechanical processing makes continuous quality control of lightweight components indispensable.

Between Radio and Light Waves

One relatively new technique for volumetric non-destructive testing (NDT) in non-conductive materials is spectroscopy by means of ultra-short waves in the terahertz spectrum (THz-Imaging). This frequency band extends from approx. 100 GHz to 10 THz (0.05 – 3.0 mm wavelength) and forms the boundary between radio and light waves. THz-Imaging enables contactless examinations of GFRP or wooden parts without any special safety precautions. In addition, it can be used for examining foams or for determining the weld quality of thermoplastics.

Alongside production systems for the automotive, aviation, sports, and construction industries, FILL develops and produces automated solutions for non-destructive materials testing. In addition, the company has developed a solution with the high-precision ACCUBOT robots that can operate both independently and jointly on linear axes running in parallel. These systems can perform inspections with different methods. An additional rotatory servo axis at the tool center point also enables component testing in small, highly contorted areas.

Terahertz Testing for Industrial Use

The possible uses of terahertz spectroscopy for plastic applications have previously been restricted to laboratory operations. Fill participated in the three-year ATTIC (Automated TeraherTz Imaging of Composites and tooling profiling) EUREKA project to develop a robot-based automated process for the production and subsequent inspection of drill holes in glass-fiber-reinforced composites. This process involves fully-automatic inspection of the material around the drill hole for defects using THz-Imaging. Integration of a THz spectrometer on a FlexChange quick connector flange ensured swift implementation of this technology in a robot-based inspection system from Fill. The flexible system enables use of THz-Imaging for fiber-composite parts, even if these are contorted or freely formed. The same applies to inspection of the internal supporting structures of complex formed parts from additive production.

Important step towards product maturity

“In the ATTIC project, THz-Imaging achieved Technology Readiness Level (TRL) 5 as another technology for our multimodal automatic NDT systems,” explains Harald Sehrschön, Research and Development Team Leader at Fill. “Integration of THz-Imaging spectrometry in fully-automatic NDT systems would enable a change in methodology in automated non-destructive component testing for many manufacturers. However, there is still much to do before application in a customer project.”

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