Measurement of round robin for residual stress measurement standardization
Knowledge of how residual stresses arise and develop during component manufacturing and operation is essential for optimizing component designs, increasing component stability and lifetime, and reducing unnecessary safety factors. To get this knowledge, we however, need to be able to characterize these stresses. Neutron diffraction is the optimal way to measure residual stresses in engineering components because of their high penetrating power and non-destructive nature. Its use in industry is, however, still very limited because the barriers for using these techniques and understanding (and trusting) the results are high. By working towards standardized measurement and data processing and analysis procedures we are breaking down these barriers. One step towards defining these standardized procedures and getting industry to trust the data is to benchmark neutron diffraction with other residual stress measurement techniques - including (some of) the (semi) destructive techniques that are used and trusted in industry. We are doing this by measuring a standard round robin sample using the different techniques where neutron diffraction is of key importance.
The data is currently only available to download if you are a member of the proposal team.
The recommended format for citing this dataset in a research publication is in the following format:
LEEMREIZE Hanna; Jonas Okkels Birk; CABEZA Sandra and ZANGENBERG Nikolaj. (2020). Measurement of round robin for residual stress measurement standardization. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.1-02-285
This data is not yet public
This data is not yet public
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