Laser Beam Welding of a Ti-15Mo/TiB Metal-Matrix Composite

A Ti-15Mo/TiB metal-matrix composite was produced by spark plasma sintering at 1400 degrees C. The fractions of the elements in the initial powder mixture were 80.75 wt.% Ti, 14.25 wt.% Mo, and 5 wt.% TiB2. The initial structure of the synthesized composite was composed of bcc beta titanium matrix and needle-like TiB reinforcements with an average thickness of 500 +/- 300 nm. Microstructure and mechanical properties of the composite were studied after laser beam welding (LBW) was carried out at room temperature or various pre-heating temperatures: 200, 400, or 600 degrees C. The quality of laser beam welded joints was not found to be dependent noticeably on the pre-heating temperature; all welds consisted of pores the size of which reached 200-300 mu m. In contrast to acicular individual particles in the base material, TiB whiskers in the weld zone were found to have a form of bunches. The maximum microhardness in the weld zone (similar to 700 HV) was obtained after welding at room temperature or at 200 degrees C; this value was similar to 200 HV higher than that in the base material.