SOT-MRAM uses spin orbit interaction to control the magnetization of a memory cell. It is believed that because the read and write current paths are separated, the spin Hall effect that occurs during writing does not occur during reading. Therefore, separate optimization for reading and writing is possible. However, we previously reported that the spin Hall effect occurred during reading, which indicated a disturbance in the magnetization of the free layer, and proposed a new memory cell structure as a solution to reduce read disturb. In this paper, the effect of the proposed SOT-MRAM disturb reduction approach was investigated by simulation on the dependence of three types of ferromagnetic materials (iron, cobalt, permalloy), and the reduction ratio of more than one order of magnitude was shown for all materials.