Titanium alloys are increasingly used due to their high specific strength and excellent corrosion resistance. As a high-performance material, it finds applications in aerospace, the chemical industry, and other fields. The IW (Institute for Materials Science) researches the welding of titanium alloys using MIG, TIG, and micro-plasma processes. Examinations on joints and additive components can be conducted in a shielding gas chamber with controled residual oxygen content (< 10 ppm).
Titanium alloys are increasingly used due to their high specific strength and excellent corrosion resistance. As a high-performance material, it finds applications in aerospace, the chemical industry, and other fields. The IW (Institute for Materials Science) researches the welding of titanium alloys using MIG, TIG, and micro-plasma processes. Examinations on joints and additive components can be conducted in a shielding gas chamber with controled residual oxygen content (< 10 ppm).
30823 Garbsen
