A study on silicon steel with different carbon concentration has been made. For steels, different transformation temperatures always lead to a different micro-structure, and have a big influence on its mechanical properties. In this research, some structure like Martensite, Bainite, Widmanstaten ferrite, Allotriomorphic ferrite and pearlite was obtained. Optical metallographs and hardness tests have been examined to explore these microstructure development and their mechanical properties. By the thermal dilatomer curves, we also found many important transformation start temperature of this steel. Besides, we did the advance research on bainite structures, these included SEM, TEM observation, and EBSD techniques. The bainitie sheaf structure is composed by many subunits, and the thickness of these subunits has large influence on bainite properties. In this research, we found that the thickness of subunits is coarsened with the increased isothermal transformation temperature but fined with the increased carbon concentration, and the finer subunit structures also has better hardness. On the other hand, EBSD techniques have been used to study the texture of bainite structure. One grain can be divided to many areas with the same habit plane called as packet, and the packet sturcture usually has at least two variant orientations instead of only one single orientation. In any packet, the variant orientations of the structure are totally different, and because of the variant selection of the subunit lath plates, the difference of variant orientations in a packet reduced by the increased temperature.