All Stories

  1. Effects of detector dead-time on quantitative analyses involving boron and multi-hit detection events in atom probe tomography
  2. Phase Stability and Stress-Induced Transformations in Beta Titanium Alloys
  3. The Influence of Experimental Parameters and Specimen Geometry on the Mass Spectra of Copper During Pulsed-Laser Atom-Probe Tomography
  4. Co-Precipitated and Collocated Carbides and Cu-Rich Precipitates in a Fe–Cu Steel Characterized by Atom-Probe Tomography
  5. A Focused Ion Beam Specimen Preparation Method to Minimize Gallium Ion Concentration in Copper Atom-Probe Tomography Specimen Tips
  6. The Role of Multi-Hit Detection Events on the Accurate Measurement of Boron in Atom Probe Tomography
  7. Optimization of Experimental Parameters and Specimen Geometry for PulsedLaser Atom-Probe Tomography of Copper
  8. Coarsening kinetics of Cu-rich precipitates in a concentrated multicomponent Fe–Cu based steel
  9. The temporal evolution of the decomposition of a concentrated multicomponent Fe–Cu-based steel
  10. A subnanoscale study of the nucleation, growth, and coarsening kinetics of Cu-rich precipitates in a multicomponent Fe – Cu based steel
  11. High-Strength Low-Carbon Ferritic Steel Containing Cu-Fe-Ni-Al-Mn Precipitates
  12. Identification of a Ni0.5(Al0.5−xMnx) B2 phase at the heterophase interfaces of Cu-rich precipitates in an α-Fe matrix
  13. Comparison of Compositional and Morphological Atom-Probe Tomography Analyses for a Multicomponent Fe-Cu Steel
  14. An atom-probe tomographic study of the temporal evolution of the nanostructure of Fe–Cu based high-strength low-carbon steels