Abstract
The equilibrium segregation of the elements A = C, Si, Sn, N, P, O, and S was studied for binary systems Fe-A in the stability range of the α-solid solution using surface analytical methods. On the surfaces ordered structures were observed by LEED and surface concentrations were determined by AES in dependence on bulk concentration and temperature. The chemical binding state was characterized by XPS. In grain boundaries the segregation of Ρ and Sn was determined by AES on intergranular fracture faces after equilibration at elevated temperatures and fracture in UHV. Effects of alloying elements, especially C, on grain boundary segregation are described. Correlations of surface and grain boundary segregation with the chemical and mechanical behavior of steels are shortly discussed. © 1989, The Iron and Steel Institute of Japan. All rights reserved.
Author supplied keywords
- Auger-electron-spectroscopy (AES)
- Binding states of segregated elements
- Cavity formation
- Creep of heat resistant steels
- Displacement equilibria
- Embrittlement of steels
- Grain boundary segregation
- Intergranular corrosion
- Intergranular fracture
- Low energy electron diffraction (LEED)
- Oxide nucleation
- Photoelectron-spectroscopy (PES)
- Segregation structures
- Segregation thermodynamics
- Site competition
- Surface diffusion
- Surface reactions
- Surface segregation
Cite
CITATION STYLE
Grabke, H. J. (1989). Surface and grain boundary segregation on and in iron and steels. ISIJ International, 29(7), 529–538. https://doi.org/10.2355/isijinternational.29.529
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