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| Naji, M. |
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Danaie, M.
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Publications (5/5 displayed)
- 2020Bonding and microstructure evolution in electromagnetic pulse welding of hardenable Al alloyscitations
- 2019Atom probe tomography of Au-Cu bimetallic nanoparticles synthesized by inert gas condensationcitations
- 2017Nanoscale stoichiometric analysis of a high-temperature superconductor by atom probe tomographycitations
- 2015On the effect of boron on grain boundary character in a new polycrystalline superalloycitations
- 2010Analysis of deformation twins and the partially dehydrogenated microstructure in nanocrystalline magnesium hydride (MgH2) powdercitations
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article
On the effect of boron on grain boundary character in a new polycrystalline superalloy
Abstract
The role of boron in conferring the grain boundary character in a new polycrystalline superalloy suitable for power generation applications is considered. One boron-free and three boron-containing variants are studied using a suite of high resolution characterisation techniques including atom probe tomography (APT), high resolution secondary ion mass spectroscopy (SIMS) and transmission electron microscopy (TEM). The primary effect of boron addition is the suppression of Cr-rich M23C6 carbide and the formation instead of the Cr-rich M5B3 boride. The SIMS analysis indicates that the boride particles are distributed fairly uniformly along the grain boundaries, of length up to 500 nm along the grain boundary. The substantial majority of the boron added resides in the form of these M5B3 borides; some boron segregation is found at the γ′/M5B3 interfaces but interfaces of other forms – such as γ/γ′, γ/M5B3, γ/MC and γ′/MC – show no significant segregation. Creep testing indicates that the optimum boron content in this alloy is 0.05 at.%.