Papers by Keyword: Small Angle Scattering

Abstract: Aerogels are porous materials with potential applications in fields ranging from thermal insulation, catalyst support, filters, electrical storage, components in optical devices, mechanical damping all the way to drug release. However, careful reliable characterization is the base for both, understanding of fundamental structure - property relationships as well as a directed development of materials and composites for specific applications. The review therefore addressed severe problem upon aerogel characterization that have been identified in the past and presents reliable non-destructive alternatives and novel methods that can be applied for the characterization of aerogels as well as their gel precursors.

Abstract: Small Angle Neutron Scattering (SANS) technique allows characterizing the nanomicrostructure of the ferritic Oxide Dispersion Strengthened (ODS) steels which are candidates for the structure material of fusion reactor and fast reactor. A SANS study of domestic ferritic ODS alloys are presented. The main objective is to study the evolution of the oxide dispersion nanoparticle during the different stages of the fabrication and different content.

Abstract: Waspaloy is a polycrystalline nickel-base superalloy used in disc rotors for gas turbine engines. Waspaloy, like other superalloys, is strengthened through the formation of the γ’ precipitate phase. As this precipitate phase evolves with processing and thermal exposure, it is desirable to non-destructively monitor the precipitate microstructural evolution. Electrical resistivity was used as such a non-destructive monitoring technique for aging temperatures ranging from 600°C to 800°C and aging times ranging between 2min and 263.5h. In the nucleation regime, a Johnson-Mehl-Avrami type equation was fit to the electrical response. For the growth and coarsening regimes, a volume distribution of precipitates was fit to the measured electrical resistivity. These fitting techniques were facilitated by microstructural data obtained from SEM imaging, X-ray diffraction, and small angle neutron scattering (SANS) measurements. For both cases, the models showed an excellent fit to the measured electrical data, implying that electrical resistivity is a viable technique for non-destructively monitoring the precipitate phase in Waspaloy.