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GENERAL INFORMATION

1. Title of dataset:
	Neutron diffraction residual strain measurements of plasma sprayed solid oxide fuel cells. [Dataset]

2. Contributor information:
	Nadimul Faisal	(Robert Gordon University)
	Anil Prathuru	(Robert Gordon University)
	Rehan Ahmed	(Heriot-Watt University)
	Shu Yan Zhang	(ISIS Neutron Source, Science and Technology Facilities Council [STFC])
	
3. Date of data collection:
	2015-03-31
	
4. Funding:
	RGU Internal Funding
	

ACCESS INFORMATION

1. Licence: 
	Creative Commons BY-NC 4.0 ( https://creativecommons.org/licenses/by-nc/4.0/ )

2. Access Links:
	https://doi.org/10.5286/ISIS.E.58451518 
	https://web.archive.org/web/2020*/https://doi.org/10.5286/ISIS.E.58451518 [archived 2020-02-15]
	
	https://doi.org/10.5286/ISIS.E.RB1510238
	https://web.archive.org/web/2020*/https://doi.org/10.5286/ISIS.E.RB1510238 [archived 2020-02-28]

3. Recommended citation:
	FAISAL, N., PRATHURU, A., AHMED, R. and ZHANG, S.Y. 2015. Neutron diffraction residual strain
	measurements of plasma sprayed solid oxide fuel cells. [Dataset]. Hosted on STFC ISIS neutron
	and muon source data journal [online]. Available from: https://doi.org/10.5286/ISIS.E.58451518

4. Links to publication that cite or use the data:
	http://hdl.handle.net/10059/2314
	https://rgu-repository.worktribe.com/output/1513597

5. Additional Information: 
	When downloading files from the ISIS data journal, users will see two login options. If you do 
	not have a user login, you should instead use the "Anonymous" option. After logging in, the 
	webpage may initially display a "Nothing to display" error. You need to go to the "Browse" tab, 
	then select "cycle_14_3". This will cause a list of investigations to appear. You can then download 
	the file for a single investigation by selecting its title. Alternatively, in order to simultaneously 
	download the files for multiple investigations, tick the boxes next to each title, then select the 
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CONTEXTUAL INFORMATION

1. Summary:
	Manufacturing of Solid Oxide Fuel Cells (SOFC) using thermal spray technology is one of the
	most economical and technologically advanced approaches for energy applications. High cooling
	rates during thermal spray deposition process however impart residual stress in the layered
	SOFC materials and hence influence the durability and efficiency of the cell. The
	characterisation of this residual train is therefore critical in optimising the materials and
	coating process parameters for future generation SOFC. Neutron diffraction due to its high
	beam penetration, unlike other measurement techniques, offers the opportunity to
	non-destructively measure the through thickness stress profile in the SOFC assembly. The
	objective of this proposal is to use neutron scattering (ENGIN-X) due to high flux and deep
	penetration to study residual strain in air plasma sprayed (APS) anode coatings used in SOFC.