The purpose of this study was to investigate the feasibility of using two curved ultrasound phased arrays with a rapid focus-scanning scheme for breast tumor thermal therapy. The driving frequency, radius of curvature, length and width of the phased arrays are 1.0 MHz, 15 cm, 16 cm and 1.5 cm, respectively. The two curved arrays were arranged face-to-face with a distance of 24 cm, and the breast was set between the two arrays to have the planning target volume (PTV) located at the center. The foci of the phased arrays were located at the PTV and scan sequentially. After an appropriate sonication time, the set of arrays was rotated 90 degree and then continued the sonication to achieve a uniform heating for the PTV without overheating the normal tissues. The location of PTV, blood perfusion rate, the ratio of sonication time before and after the rotation, and a superficial PTV has been studied. The computer simulation and experiments with color-changeable phantom and flesh pork phantom had been used to evaluate the proposed heating system. The results indicated that the heating system was able to create a uniform heating in the PTV with a minimum acoustic power deposition in ribs due to the acoustic beam parallel to the ribs. In addition, the temperature rise on the breast surface could be minimized since a sufficient acoustic window was used for the proposed heating system. A shallow PTV could even be heated as a low temperature of cooling water was used. The results of this study showed that the two ultrasound phased-arrays with a suitable arrangement and heating scheme was able to achieve a uniform heating for breast tumor thermal therapy without overheating the ribs and the skin within a short treatment time.