ISIS Neutron and Muon Source Data Journal

Relationships between microstructure and deformation mechanisms in a new Ni-base superalloy during high temperature tensile loading

Abstract: Haynes 282 is a novel Ni-base superalloy, combining excellent weldability and general processability with a moderate cost. As such, it is a very promising material for e.g. industrial gas turbines, aero engines or advanced ultra-supercritical boilers, where increased combustion temperatures are essential to improve the efficiency and reduce emissions. In this experiment, we aim to study the effect of microstructure and temperature on the deformation mechanisms in Haynes 282. In-situ neutron scattering measurements during tensile tests between room temperature and 730°C will be undertaken, and coupled to advanced modelling. The purpose is to allow both optimisation of heat treatment procedures in order to tailor the micro-structure and properties for different industrial applications, and the development of accurate and reliable life prediction models.

Principal Investigator: Dr Magnus Colliander
Experimenter: Dr Sheng Guo
Experimenter: Miss Adrianna Monika Lozinko
Experimenter: Professor Christer Persson
Experimenter: Dr Axel Steuwer
Experimenter: Dr Axel Steuwer
Experimenter: Mr NITESH RAJ JALADURGAM
Experimenter: Dr Hongjia Li
Local Contact: Dr Joe Kelleher

DOI: 10.5286/ISIS.E.RB1720281

ISIS Experiment Number: RB1720281

Publisher: STFC ISIS Neutron and Muon Source

Data format: RAW/Nexus
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Data Citation

The recommended format for citing this dataset in a research publication is as:
[author], [date], [title], [publisher], [doi]

For Example:
Dr Magnus Colliander et al; (2017): Relationships between microstructure and deformation mechanisms in a new Ni-base superalloy during high temperature tensile loading, STFC ISIS Neutron and Muon Source, https://doi.org/10.5286/ISIS.E.RB1720281

Data is released under the CC-BY-4.0 license.