It is found that the formation of tertiary dendrite only takes place in the hypereutectic zone.

Study on modeling of solute concentration distribution in secondary dendrite during solidification of molten steel

The effect of nitrogen on the secondary dendrite of primary austenite of Fe-C-Si and Fe-C-Si-Mn grey cast irons was studied through unidirectional solidification.

The results show that under the condition of industrial casting furnace,with the increase of withdrawal rate,the element segregation decrease,the primary dendrite and secondary dendrite arm spacing reduce,the size of the as-cast γ′ precipitates shorten.

The quantity of primary phase α increases and the eutectoid (α+η) decreases with the increase of aluminum contents in the alloy, while the secondary dendrite arm spacing of the alloy has no remarkable change.

It has been found that the secondary dendrite arm spacing of the former is smaller than that of the latter and the decrease trend with increasing titanium content is similar for both kinds of alloys.

The directional solidification method was used to investigate the secondary dendrite arm spacing of primary austenite of hypoeutectic Fe-C-Si-Mn alloy with various antimony contents.

Effect of Chill on Secondary Dendrite Arm Spacing of Aluminum Alloy Casting;

Based on the resin bonded sand casting process,the effects of chill processes on the secondary dendrite arm spacing(SDAS) and densification of Al-Si-Mg alloy were studied.

The effect of counter-pressure casting parameters on secondary dendrite arm spacing (SDAS)of A357 alloy was studied.