Abstract:In order to clarify the characteristics and formation mechanism of the reheat cracking in Ti₂AlNb weldments, a series of heat treatment conditions were performed to the circular joints welded by electron beam, and then the macrostructures and microstructures were investigated using optical microscopy, scanning electron microscopy, X-ray diffractometry, and transmission electron microscopy. The results show that the reheat cracking occurs primarily along the grain boundaries in the weld when the Ti₂AlNb circular welded joints are heated up to about 700 °C. During the heat treatment, an almost complete transformation of B2→O happens while the temperature goes up through the O single-phase region. Then, O→B2+O phase transformation occurs primarily along the grain boundaries as the weld metal continues to heat up to the B2+O dual-phase region. Under the high tension stress consisting of welding residual stress and phase transformation stress, reheat cracking occurs at the interface between the B2+O dual-phase layer and the O-phase matrix.

Key words: reheat cracking; electron beam welding; Ti₂AlNb alloy; microstructure evolution