With the help of high temperature-gradient directional solidification equipment (HGDS), the microstructure and microsegregation of Ni-base single crystal superalloy CMSX-2 solidified at the cooling rates from below 1 K/s to 20 K/s were investigated.

The dendritic arm spacings and microsegregations of directionally solidified superalloy DZ22 at various solidification rates have been studied with the help of a ZMLMC directional solidification equipment.

The results show that FGH95 alloy ingot exists serious dendrite segregation,dendrite segregation is eliminated when microstructure and composition are homogenized after 1170 ℃×20h or isothermal compression of 70% at 1150 ℃.

In view of generality and importance of effects of dendrite segregation on structures and properties of casted alloy materials, accurate mathematical models of diffusion homogenization of dendrite segregation must be set up,thus parameters of physico-metallurgical quality control can be found.

The results show that there were dendrite segregation,shrinkage and non-normal coarse bainite microstructure defects in the workpiece,which indicated that the metallurgical quality of the raw materials of the gear shaft was poor and these defects still had not been eliminated after forging.

The results show that the addition of micro rare earth elements to low alloy tool steel can decreases relative content of gross carbide, improve the dispersion, refine the austenite grain and reduce the dendritic segregation of chromium.

The simulation results show that during cell/dendrite transition the mixed structure is composed of cells and dendrites,in which the secondary dendrites are absent at facing surface of some parallel closely spaced dendrites.