Details
Title
Maresca, Francesco
Sciper ID
253935
Affiliated labs
LAMMM
Publications
Measurement and prediction of the transformation strain that controls ductility and toughness in advanced steels
Mechanistic origin of high strength in refractory BCC high entropy alloys up to 1900K
Screw dislocation structure and mobility in body centered cubic Fe predicted by a Gaussian Approximation Potential
Solute/screw dislocation interaction energy parameter for strengthening in bcc dilute to high entropy alloys
Strength can be controlled by edge dislocations in refractory high-entropy alloys
Theory of screw dislocation strengthening in random BCC alloys from dilute to "High-Entropy" alloys
Vanadium is an optimal element for strengthening in both fcc and bcc high-entropy alloys
Mechanistic origin of high strength in refractory BCC high entropy alloys up to 1900K
Screw dislocation structure and mobility in body centered cubic Fe predicted by a Gaussian Approximation Potential
Solute/screw dislocation interaction energy parameter for strengthening in bcc dilute to high entropy alloys
Strength can be controlled by edge dislocations in refractory high-entropy alloys
Theory of screw dislocation strengthening in random BCC alloys from dilute to "High-Entropy" alloys
Vanadium is an optimal element for strengthening in both fcc and bcc high-entropy alloys
Link to search
All resources
Record appears in
Authorities > People