Calibration of cast-in fibre Bragg gratings for internal strain measurements in cast aluminium by using neutron diffraction
- Resource Type
- Authors
- Peter Hornberger; Robert Koos; Klaus Weraneck; Jochen Hiller; Martin Jakobi; Wolfram Volk; Alexander W. Koch; Florian Heilmeier
- Source
- Measurement. 163:107939
- Subject
- Materials science
Strain (chemistry)
Applied Mathematics
System of measurement
Neutron diffraction
chemistry.chemical_element
Condensed Matter Physics
Casting
Characterization (materials science)
chemistry
Aluminium
Calibration
Electrical and Electronic Engineering
Composite material
Instrumentation
Eutectic system
- Language
- ISSN
- 0263-2241
Fibre Bragg gratings (FBGs) are utilized to function as internal strain sensors during casting, solidification and cooling of two hypoeutectic Al alloys and technically pure Al. In situ neutron diffraction experiments were conducted simultaneously onsite the STRESS-SPEC instrument at the Research-Neutron Source (MLZ) in Garching. The experimental data correlated with structural finite element simulation and X-ray micro tomography (CT) elucidates the mechanisms of this measurement system. The presented work offers a new practical approach to measure in-situ strains during casting of Al alloys by using FBG-based sensors. The FBG strain results correlate with the Al(311) peak obtained by neutron diffraction which is furthermore used for calibration. The examination of interactions between fibres and surrounding cast Al by finite element simulation and CT of the cast specimens enables the application of the sensors for unequivocal strain measurements in castings as well as the characterization of alloys during solidification.