This file contains only basic metadata and links to where the website can be accessed. As a result, the licence under which this file is shared on OpenAIR is not necessarily the same as the licence used for the website content itself. Please consult the terms and conditions of use for the website directly. GENERAL INFORMATION 1. Title of website: Comparison of through thickness residual strain in thermally sprayed coatings onto substrate with grooved surface and flat surface. [Dataset] 2. Contributor information: Faisal, Nadimul (Robert Gordon University) Verma, Jaya Irungu, Beth Prathuru, Anil Leex, Tung Lik Goel, Saurav Ahmed, Rehan Rajendran, Vinooth Mohanty, Shalini 3. Date on which website first launched: 2023-07-02 ACCESS INFORMATION 1. Release Date and Access Link: This file is due to be publicly released on the 12th February 2026. Full metadata is available from the ISIS neutron and muon source data journal: https://doi.org/10.5286/ISIS.E.RB2220020-1 2. Recommended citation: FAISAL, N., VERMA, J., IRUNGU, B., PRATHURU, A., LEE, T.L., GOEL, S., AHMED, R., RAJENDRAN, V. and MOHANTY, S. 2023. Comparison of through thickness residual strain in thermally sprayed coatings onto substrate with grooved surface and flat surface. [Dataset]. Hosted on STFC ISIS neutron and muon source data journal [online]. Available from: https://doi.org/10.5286/ISIS.E.RB2220020-1 CONTEXTUAL INFORMATION 1. Abstract: This proposal aims to compare through thickness residual strain in thermally sprayed coatings onto substrate with grooved surface and flat surface with a view to comprehend their tribological performance, as a reduced tensile residual stress at the interface could enhance coatings fatigue life. Shown by previous machining results, a corrugated or grooved surface alters the way tensile stress manifests which will be beneficial to the spraying field which forms the core of this scientific investigation. Reduced tensile residual stress are known to be beneficial to the fatigue life of coatings leading to enhanced tribological performance – which demonstrates wider impact of this investigation.