High-temperature deformation behavior of titanium clad steel plate

In this paper, the single-pass hot compression experiment of titanium clad steel plate was carried out by Gleeble-3500 thermal mechanics simulation test machine, and the effect of deformation temperature (T), strain rate (), thickness ratio (k), and friction coefficient (mu) on flow pattern of the metal and stress in the deformation zone was analyzed. The results show that the metal flow behavior and the stress during compressive deformation depend strongly on the deformation temperature. At 800 and 850 degrees C, the bimetal can flow uniformly, while at 900 degrees C, the TA2 flows faster than Q235B, and the phenomenon of TA2 wrapping Q235B is observed. The metal flow of the bimetal material will coordinate each other through the bonding interface. It is noted that the stress increases with the increase of the (epsilon) over dot and mu and decreases when the metal flows along the contact area.