High temperature corrosion of nickel and dilute nickel-based alloys in (SO2O2)/SO3 mixtures

The mineralogical (phase) composition of sulphoaluminate belite cement clinkers was calculated using phase compatibility data of the relevant portion of the five component oxide system CaO-SiO2-A1203-Fe203-SO 3 and was plotted in the plane of three component raw mix. In result a phase fields map (PF

Corrosion of Iron Base Alloys and High Alloy Steels in the Li2CO3-K2CO3 Eutectic Mixture. -The corrosion behavior of binary Fe alloys and of three alloy steels is studied under simulated fuel cell conditions, i.e. in a eutectic 62 mol.% LiCO3-38 mol.% K2CO3 mixture at 650 • C in N2-15 vol.% O2 with

The sulfidation of Fe-20%Cr-30%Mn, Fe-25%Cr-20%Mn and Fe-25%Cr was studied at 700 "C in H2-H2S and the oxidation and sulfidation in H2-H,0-H,S after preoxidation in H,-H,O. The sulfidation rate is strongly increased for the Mn-containing alloys, layers of (Mn,Cr)S and (Mn,Fe)Cr2S4 are formed. Also

## Abstract The reaction of S atoms with O~2~ was studied behind reflected shock waves applying atomic resonance absorption spectroscopy (ARAS) for concentration measurements of S and O atoms. S atoms were generated either by laser‐flash photolysis (LFP) of CS~2~ or by the high‐temperature pyrolysi