Phase-transformation and precipitation kinetics in vanadium micro-alloyed steels by in-situ, simultaneous neutron diffraction and SANS

Phase-transformation and precipitation kinetics in vanadium micro-alloyed steels by in-situ, simultaneous neutron diffraction and SANS

Ioannidou, C. (TU Delft Team Erik Offerman)
Navarro Lopez, A. (TU Delft Team Jilt Sietsma)
Dalgliesh, Robert M. (ISIS Facility)
Rijkenberg, Arjan (Tata Steel Europe Limited)
Geerlofs, N. (TU Delft Team Jilt Sietsma)
Pappas, C. (TU Delft RST/Neutron and Positron Methods in Materials)
Sietsma, J. (TU Delft Team Jilt Sietsma)
van Well, A.A. (TU Delft Instrumenten groep)
Offerman, S.E. (TU Delft Team Erik Offerman)

2021

In-situ Neutron Diffraction and Small-Angle Neutron Scattering (SANS) are employed for the first time simultaneously in order to reveal the interaction between the austenite to ferrite phase transformation and the precipitation kinetics during isothermal annealing at 650 and at 700 °C in three steels with different vanadium (V) and carbon (C) concentrations. Austenite-to-ferrite phase transformation is observed in all three steels at both temperatures. The phase transformation is completed during a 10 h annealing treatment in all cases. The phase transformation is faster at 650 than at 700 °C for all alloys. Additions of vanadium and carbon to the steel composition cause a retardation of the phase transformation. The effect of each element is explained through its contribution to the Gibbs free energy dissipation. The austenite-to-ferrite phase transformation is found to initiate the vanadium carbide precipitation. Larger and fewer precipitates are detected at 700 than at 650 °C in all three steels, and a larger number density of precipitates is detected in the steel with higher concentrations of vanadium and carbon. After 10 h of annealing, the precipitated phase does not reach the equilibrium fraction as calculated by ThermoCalc. The external magnetic field applied during the experiments, necessary for the SANS measurements, causes a delay in the onset and time evolution of the austenite-to-ferrite phase transformation and consequently on the precipitation kinetics.

In-situ measurements
Neutron Diffraction
Phase-transformation and precipitation kinetics
Small-Angle Neutron Scattering
Vanadium micro-alloyed steels

http://resolver.tudelft.nl/uuid:e7376d33-fbfa-497e-9ce6-1a20ec611e66

https://doi.org/10.1016/j.actamat.2021.117317

1359-6454

Acta Materialia, 220

Institutional Repository

journal article

© 2021 C. Ioannidou, A. Navarro Lopez, Robert M. Dalgliesh, Arjan Rijkenberg, N. Geerlofs, C. Pappas, J. Sietsma, A.A. van Well, S.E. Offerman, More Authors