W. Diekmann scite author profile

A combined electron spectroscopic study by means of x-ray photoelectron spectroscopy (XPS), ultraviolet photoelectron spectroscopy (UPS) and Auger electron spectroscopy (AES) was performed to characterize the bonding state of the nonmetal elements S, C and N segregated on the a-iron(100) surface as a saturated overlayer with c(2 X 2) structure. Solid nonmetal iron compounds were prepared for comparative measurements:The segregation of solute impurities in iron and low alloyed steels leads to compositional changes of grain boundaries and free surfaces. Surface equilibrium segregation influences surface properties such as surface reaction kinetics, friction and adhesion, surface diffusion and sintering and corrosion resistance. Grain boundary segregation affects materials performance and may lead to phenomena such as temper embrittlement, creep embrittlement, stress corrosion cracking and intergranular corrosion.Sulphur is known to cause embrittlement of iron, i.e. a strong tendency to intergranular fracture, whereas carbon and nitrogen will reduce embrittlement. The embrittlement by sulphur has been explained by a weakening o f metalmetal bonds in lattice planes adjoining the grain boundary. This hypothesis was supported by cluster calculations,' which indicate that sulphur attracts negative charge and will draw electrons from surrounding metal atoms.The x-ray photoemission spectra of the core lines S 2 S 2p, C Is and N 1s from the segregated nonmetal exhibit characteristic shifts to lower binding energies in comparison to corresponding lines from appropriate reference samples. The latter samples are solid sulphur Sx. graphite and molecular nitrogen adsorbed on iron at low temperatures. These references represent a homopolar bond of the nonmetal under investigation, so that the chemical shift reveals the polarity of the iron-non-metal bond.FeS and FeS? show S 2p binding energies which are 0.3 eV and 0.5 eV below the one of sulphur segregated on Fe( 100) of 162.2 eV, i.e. the charge is higher on sulphide sulphur atoms. This value is found also for the sulphur enrichment on the grain boundaries of an in situ broken sample. The chemical shift related to the binding energy of 164.0 eV of the reference sample of solid S8 indicates an almost ionic bond character for the iron-sulphur bond, as it was predicted by cluster calculations. In the spectra of segregated carbon only two lines appear separated by 2.0 eV. The one with higher binding energy of 284.6 eV corresponds to a graphitic precipitation below the temperature Ts of the solid solubility limit of carbon in airon. XPS binding energy and Auger lineshape of this carbon species equal those of graphite. The other line is ascribed to chemisorbed carbon, since it is observable only above T,, when surface graphite is dissolved into the bulk.Around 7' s a sharp peak arises in the Auger spectrum of the CKI.I, transition at the high energy side o f the KL23LZJ line. As this peak represents an interatomic transition carbon core hole, the origin of the Auger electron is the v...

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ChemInform Abstract: The Effect of Phosphorus on the Mechanism of Intergranular Stress Corrosion Cracking of Mild Steels in Nitrate Solutions.

Krautschick

Grabke

Diekmann

1988

ChemInform

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ChemInform Abstract Upon corrosion of Fe-P alloys (0.003-2 wt.% P) in hot NH4NO3 solution, P impedes the formation of protective oxide layers on the surface. XPS results indicate that P in a negatively charged state (phosphide) is responsible for the reduced oxide growth. Constant strain rate tests on mild steels containing 0.003-0.05 wt.% P show a detrimental effect of phosphorus in nitrate solution in the potential range -300 mV to -100 mV vs. NHE. The effect is correlated to phosphorus segregated at the grain boundaries and can be predicted from the behavior of the Fe-P alloys. However, at potentials above -50 mV, the susceptibility of the steels to intergranular stress corrosion cracking is even higher and independent of the P content.

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W. Diekmann

The bonding state of nitrogen segregated on Fe(100) and on iron nitrides Fe4N and Fe2N

The bonding state of carbon segregated to α-iron surfaces and on iron carbide surfaces studied by electron spectroscopy

The effect of phosphorus on the mechanism of intergranular stress corrosion cracking of mild steels in nitrate solutions

The bonding state of segregated elements on α‐iron surfaces and in their iron compounds studied by electron spectroscopy

ChemInform Abstract: The Effect of Phosphorus on the Mechanism of Intergranular Stress Corrosion Cracking of Mild Steels in Nitrate Solutions.

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