These structures make the quenching temperature to be rise and the overtemperature structure and the uniformity of eutectic carbide in the steel are the major reasons of quenching crack.

Results show that, when suitable RE is added into high carbon high speed steel,the austenite and eutectic carbides have been changed.

After heat treatment, network eutectic carbides of cast Cr12 die steel are changed into nodular and dispersed ones in the matrix.

Study of fractal dimension on the unevenness of eutectic carbides of Cr12 steel;

The results show that, the morphology and distribution of the eutectic carbides are improved and the grain refinement is better with the increase of compound modifier addition within 1.

The result shows that the morphology and distribution of eutectic carbides in Cr12 steel under new process were improved, spheroidal pearlite and fine grain of alloy carbides were obtained,mechanics properties were enhanced.

The results show that variations of short-term creep rupture life of the alloy are closely correlative with the grain boundary carbide concentration ( C ) and the grain size ( r ) of γ′ phases.

The main cause is high Mn content and low Si content in the crankshaft material,and forming grain boundary carbide due to improper cooling after casting,in addition,forming higher internal stress due to casting cooling in the sand box,and causing brittle fracture during unpacking the box.

The effects of grain boundary carbides on 850℃ yield strength was studied.

In present paper,the model about the growth of grain boundary carbides and chromium depletion region during ther- mal treatment(TT)for GH3690 alloy is founded.