Effect of niobium and grain boundary density on the fire resistance of Fe-C-Mn steel.

Formation of (Fe,Cr) carbides and dislocation structures in low-chromium steel studied in situ using synchrotron radiation.

In-situ 3DXRD investigation on the effect of niobium on austenite to ferrite phase transformation kinetics.

Three-dimensional morphology of cementite in steel studied by X-ray phase-contrast tomography.

In-line X-ray phase-contrast tomography and diffraction-contrast tomography study of the ferrite-cementite microstructure in steel.

The effect of NbC precipitates on the phase transformation kinetics in high-purity Fe-C-Mn-Nb alloys.

Poster: In-line X-ray phase-contrast tomography and diffraction-contrast tomography study of the ferrite-cementite microstructure in steel.

Poster: Precipitation kinetics in steel studied in-situ by SAXS using syncrhotron radiation.

Improving the fire resistance of steel: The effect of niobium and cooling rate.

Poster: The effect of NbC precipitates and Nb in solid-solution on the phase transformation kinetics in high-purity Fe-C-Mn-Nb alloys.

Preventing the collapse of steel-reinforced buildings during fire by increasing the high temperature strength of construction steel.