Effect of holding time and interlayer's thickness on the crack initiation and propagation and the dissolving behavior of the heat-treated facet WC grains

Abstract

Post welding heat treatment was performed on dissimilar weldments composed of WC-Co to 316L stainless steel with 1-mm-, 1.5-mm-, and 2-mm-thick Invar interlayers by heating the samples to 1250°C for 2h, 8h, and 16h respectively. Cracks initiation and propagation were observed in all samples because of the stress relieving after heat treatment. The increase of the interlayer's thickness tends to partially inhibit the initiation and propagation of cracks. When the holding time is 2h, the sample fractured in the heat affected zone (HAZ). With the increase of holding time (8h, 16h), the samples tended to fracture in the fusion zone. The dissolving behavior of prismatic facets estimated by means of high-angle annular dark field (HAADF) microscopy indicated that the shape of WC grains changed to faceted WC grains during the heat treatment, which exhibited abnormal grain growth in the matrix composing of α-Co and γ-(Fe, Ni). In the fusion zone adjacent to the WC-Co, W-M-C carbides skeleton were formed with a character of continuous rods and isolated islands. The islands had lower tungsten and more binders than the rods. By using transmission electron microscopy - energy dispersive spectroscopy (TEM-EDS), it was found that WC grains and WC/Co/WC interface showed strong plastic deformation with obvious elemental diffusion. Moiré fringes inside the WC and in the matrix were confirmed.