An experimental study has been made of graphitizing process of partially graphitized self baking carbon brick (PGSBCB) under different experimental conditions.

On the basis of the thermal flow intensity temperature distribution in the hearth and slag and liquid iron temperature,a prediction method has been developed to estimate the hearth erosion through simulating the temperature distribution of the hearth with self-baking carbon brick and ceramic brickwork as a lining by means of Kriging's method.

Brittleness layer formed on self-baking carbon brick under certain conditions is proved by the application practice, which is resulted from the double acting of alkali metal erosion and hot metal permeation.

The compound hearth lining with self baking carbon blocks and ceramic cups has been applied in large BFs for ten years.

True specific density of self baking carbon block with different graphitization degree was detemined by X ray diffraction method.

Apparent porosity P a and bulk density D b of self baking carbon block were determined by using a water absorption.

Permeation process of the molten iron in a self-baking carbon block (SBCB)was studied at both 1450 and 1500℃.

Enthalpy change, △H, of partially graphitized self-baking carbon block with different graphitization degree has been determined by means of copper calorimeter in temperature range from 14 to 1000℃.

Thermal diffusivity, α, of self-baking carbon block with different graphitization degrees was determined experimentally by means of laser-pulse within temperature range of 200 1100℃.

This article presented the status of researchs on baking technology in refining Oolong tea processing,and the application of charcoal baking is introduced in detail.