The results of structure and mechanical properties investigations of tungsten heavy alloy (THA) after cyclic sintering are presented. The
material for study was prepared using liquid phase sintering of mixed and compacted powders in hydrogen atmosphere. The specimens in
shape of rods were subjected to different number of sintering cycles according to the heating schemes given in the main part of the paper
From the specimens the samples for mechanical testing and structure investigations were prepared. It follows from the results of the
mechanical studies, that increasing of sintering cycles lead to decrease of tensile strength and elongation of THA with either small or no
influence on yield strength. In opposite to that, the microstructure observations showed that the size of tungsten grain increases with
number of sintering cycles. Moreover, scanning electron microscope (SEM) observations revealed distinctly more trans-granular cleavage
mode of fracture in specimens subjected to large number of sintering cycles compared with that after one or two cycles only.