My research focuses on the use of total scattering techniques for the study of local effects in alloy systems. Total scattering is a method where both the diffuse and Bragg scattering are considered simultaneously. This provides insight into the local effects occurring in alloys beyond the average structure that is obtainable from the Bragg data alone. Using a combination of X-ray and Neutron scattering, we are able to probe the short-range order in metallic compounds, understanding the material on the atomic scale. A combination of small (PDFGui) and large box modeeling (RMCProfile) modelling techniques are used to interpret the data. Of particular interest are the distortions in the local structure, and variations in order that occur prior to phase transitions in the system. The knowledge of the local structure is of key importance to the structure-property relationships of the material.
The systems I study range from simple binary alloys, to industrially relevant systems (e.g. Nickel superalloys) and novel materials (e.g. High-entropy alloys).