The spatial correlation between defects in crystalline materials and trace element
segregation plays a fundamental role in determining the physical and mechanical properties …

The interaction of trace elements, fluids and crystal defects plays a vital role in a crystalline
material's response to an applied stress. Fluid inclusions are typically known to facilitate …

Atom probe tomography (APT) is rising in influence across many parts of materials science
and engineering thanks to its unique combination of highly sensitive composition …

Advanced alloys may possess a discrete nanostructure or nanoscale microstructure such as
atomic co-clustering, nanoscale precipitates, solute segregation and engineered interfaces …

Atom probe tomography (APT) is routinely used for analyzing property-enhancing particles
in the nanometer-size range and below, and plays a prominent role in the analysis of solute …

This article gives a brief introduction to the principles of atom probe tomography and an
overview of what types of phenomena occurring in nanostructured alloys can be analyzed …

Nanoscale solute segregation to or near lattice defects is a coupled diffusion and trapping
phenomenon that occurs in superalloys at high temperatures during service. Understanding …

Quantitative analysis of microstructural features on the nanoscale, including precipitates,
local chemical orderings (LCOs) or structural defects (eg stacking faults) plays a pivotal role …

The links between deformation-induced micro-and nanostructures and trace element
mobility in sulphide minerals have recently become a popular subject of research in the …

Atom probe tomography (APT) is ideally suited to characterize and understand the interplay
of segregation and microstructure in modern multi-component materials. Yet, the quantitative …