H
Howard J. Stone
Researcher at University of Cambridge
Publications - 161
Citations - 5616
Howard J. Stone is an academic researcher from University of Cambridge. The author has contributed to research in topics: Superalloy & Alloy. The author has an hindex of 35, co-authored 161 publications receiving 4295 citations. Previous affiliations of Howard J. Stone include Rolls-Royce Motor Cars & University of Manchester.
Papers
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Journal ArticleDOI
Precipitation in the equiatomic high-entropy alloy CrMnFeCoNi
TL;DR: In this paper, the formation of two distinct types of Cr-rich precipitate in coarse-grained CrMnFeCoNi is reported following prolonged exposures at 700°C.
DatasetDOI
Research data supporting: "Precipitation in the Equiatomic High-Entropy Alloy CrMnFeCoNi"
TL;DR: The files uploaded here constitute the raw data files for the experimental results presented in the paper named above, and some additional SEM EDX maps are given, which further support the statements made inThe paper.
Journal ArticleDOI
An assessment of the lattice strain in the CrMnFeCoNi high-entropy alloy
Lewis Owen,Lewis Owen,Ed Pickering,Helen Y. Playford,Howard J. Stone,Matthew G. Tucker,Nick Jones +6 more
TL;DR: In this article, the authors would like to thank the EPSRC/Rolls-Royce Strategic Partnership for funding (EP/M005607/1 and EP/H022309).
Journal ArticleDOI
High-temperature strain field measurement using digital image correlation:
TL;DR: In this article, a method for obtaining good images of sample surfaces at high temperatures, suitable for strain measurement, by digital image correlation (DIC) without the use of surface markers or speckles is presented.
Journal ArticleDOI
Microstructure of selective laser melted CM247LC nickel-based superalloy and its evolution through heat treatment
V.D. Divya,R. Muñoz-Moreno,Omdm Messé,Jonathan S. Barnard,S. Baker,T. Illston,Howard J. Stone +6 more
TL;DR: In this paper, the microstructure of the nickel-based superalloy, CM247LC, has been characterised following selective laser melting and after a post deposition heat treatment below the γʹ solvus temperature.