12 juin 2024
16:00
Louvain-la-Neuve
Auditoire BARB93 – Pl. Sainte-Barbe - - will also take place in video conference
Understanding hydrogen desorption mechanisms in aluminized PHS by Mohamed Krid.
Press hardenable steels (PHS) coated with Al-Si alloy are widely used in the automotive industry owing to their good mechanical properties (YS > 1200 MPa and TS > 1500 MPa). The presence of Al-Si coating prevents oxidation and decarburization of steel during austenitization. It has been found that aluminized PHS are more sensitive to hydrogen absorption during austenitization in comparison to uncoated PHS. After quenching, Al-Si coating indeed acts as a hydrogen-diffusion barrier at room temperature and the diffusible hydrogen present in aluminized PHS can lead to hydrogen embrittlement (HE).
In this context, this thesis aims at investigate the mechanisms that govern the rate of hydrogen absorption and desorption in coated PHS. Thermal Desorption Analysis (TDA) is the main characterization technique used throughout this thesis. Besides, austenitization of coated samples was carried out in controlled atmosphere containing DO instead of HO to avoid any atmospheric contamination which could compromise further accurate quantification.
In order to assess hydrogen trapping sites in aluminized PHS, mechanical removal of the coating from the steel substrate was performed. This highlighted that hydrogen in aluminized PHS is reversibly trapped in the dislocation strain fields in the steel substrate. Additionally, the origin of multiple peaks in D desorption profiles of aluminized steels are attributed to different D diffusion paths. The first peak is related to desorption of D from cut bare edges, while high temperature peaks are related to desorption of D through coated faces of aluminized PHS. Finally, a 2D finite element method (FEM) model was proposed to simulate desorption profiles of aluminized 22MnB5 steels and provide a better insight into the effect of the coating on D desorption.
Jurys members:
Prof. Pascal Jacques(UCLouvain), supervisor
Prof. Sandra Soares-Frazao (UCLouvain), chairperson
Prof. Thomas Pardoen (UCLouvain), secretary
Ir. Thierry Sturel (Arcelor Mittal Maizière research)
Dr. Xavier Vanden Eynde (CRM group)
Prof. Tom Depever (UGent, Belgium)
Pay attention:
The public defense of Mohamed Krid scheduled for Wednesday June 12 at 04:00 p.m. will also take place in the form of a video conference.