Synthesis of Bulk FeAl nanostructured materials by HVOF spray forming and Spark Plasma Sintering

"Spark plasma synthesis from mechanically activated powders: a versatile route for producing dense nanostructured iron aluminides

Investigation of MAFAPAS processing parameters for producing dense nanostructured FeAl

"Mechanically activated process studied by XRD investigations in the Fe - Al binary system"

Study of the mechanism of the NbAl3 formation by MASHS reaction using synchrotron time-resolved XRD analyses coupled with IR observations

"In - situ resolved diffraction using synchrotron radiation : application to the study of the mechanically activated SHS reacton in the Fe - AL binary system"

Simultaneous synthesis and consolidation of nanostructured MoSi2

Effect of energy parameters of ball milling on microstructure of Cu nanostructured powder

International audience; The microstructure evolution of Cu nanostructured powders at different conditions of the ball milling is investigated by the x-ray diffraction analysis. The characteristics of as-milled Cu-powder microstructure in terms of crystallite sizes, type, and density of dislocations as well as twin-faults' density are determined by the whole peak-profiles' modelling of powder x-ray diffraction pattern. By comparing of both microstructure characteristics of Cu powder and the ball milling parameters, the dominant factors of ball milling, which affect on the concentration of twin faults, type, and density of dislocations as well as the size of crystallites, are revealed.

"Study of Niobium Aluminide synthesis using MASHS and M2AP processes"

The mechanically activated combustion reaction in the Fe-Si system : in situ time-resolved synchrotron investigation

"In situ synchrotron charcterization of mechanically activated self - propagating high temperature synthesis applied in Mo - Si system

'Enhancement of self - sustaining reaction by mechanical activation : case of Fe - Si systeme"