The analysis of influence of mould withdrawal rate on the solidification process of CMSX-4 single crystal castings produced by Bridgman
method was presented in this paper. The predicted values of temperature gradient, solidification and cooling rate, were determined at the
longitudinal section of casting blade withdrawn at rate from 1 to 6mm/min using ProCAST software. It was found that the increase of
withdrawal rate of ceramic mould results in the decrease of temperature gradient and the growth of cooling rate, along blade height. Based
on results of solidification parameter G/R (temperature gradient/solidification rate), maximum withdrawal rate of ceramic mould
(3.5 mm/min), which ensures lower susceptibility to formation process of new grain defects in single crystal, was established. It was
proved that these defects can be formed in the bottom part of casting at withdrawal rate of 4 mm/min. The increase of withdrawal rate to 5
and 6 mm/min results in additional growth of susceptibility of defects formation along the whole height of airfoil.