The spontaneous fission half lives of the Actinides are studied in the framework of quantum barrier tunnelling method. It is viewed as a deformation process. The process of one mother nucleus fissions to two daughter-nuclei is described by an evolution of a quasi-molecular shape, and the energy of the system is estimated by generalized liquid drop model(GLDM) including the nuclear proximity energy[1]. The shell effect is calculated by microscopic Strutinsky method, where the wood-Saxon potential is used to calculate the single particle energy levels. The spontaneous fission half lives of the Actinides are studied in the framework of quantum barrier tunnelling method. It is viewed as a deformation process. The process of one mother nucleus fissions to two daughter-nuclei is described by an evolution of a quasi-molecular shape , and the energy of the system is estimated by generalized liquid drop model (GLDM) including the nuclear proximity energy [1]. The shell effect is calculated by microscopic Strutinsky method, where the wood-Saxon potential is used to calculate the single particle energy levels.