Thermodynamic analysis of pre-eutectoid transition of acicular ferrite in carbon-depleted regions of austenite in Fe-C-X alloys;

Based on the fact that carbon-depleted regions come into being during the incubation period,thermodynamic models of diffusion and shear for weld acicular ferrite(AF)transformation in carbon-depleted regions of austenite were established respectively by using KRC(Kaufman,Radcliffe,Cohen)activity model and super-element algorithm,and used in the numerical simulation of a certain microalloy steel.

The resultsreveal that the carbide-free zone and carburized zone in the inner wall of tube is closely associatedwith the spalling and regeneration of surface chide layer, the formation of intergranular attackzone, the diffusion velocity of carbon and alloy elements in matrix and the solution limit of carbonin alloy.

It is revealed through primary studies on the dephosphorization of the phosphorus-rich rhodochrosite by these two cultures that the bacillus pulvifaciens demonstrated higher efficievey than bacillus subtilus in phosphorus uptake and dissolution, as well as phosphorus removal from the phosphorus-rich rhodochrosite.