Nondestructive testing is performed to evaluate component life and quality. It has been widely used in transportation, aviation, and other industries. Ultrasound array imaging has the ability to detect defects under the surface of the object. Because of its flexibility and usability, it has become one of the main methods of nondestructive testing. Among all the array imaging methods, the total focusing method has been widely used. However, the performance of this method is limited by the detection direction and defect orientation. When the angle between the detection direction and the normal vector of the defect is greater than 45 degrees, the ultrasound probe cannot receive the echo signal from the defect contour. In addition, when the angle between the detection direction and the normal vector of the defect is less than 45 degrees, sound waves may be reflected back and forth between the probe and the defect, which may cause reverberation artifacts, and these phenomena lead to misjudgment. In this study, we propose the use of the multi-angle total focusing method, which had been reported in the literature with the time-domain window to resolve the first issue. For the second issue, we propose a new method that uses the sign coherence factor to distinguish reverberation artifacts. To implement the above two methods in real-time, we perform software beamforming on a programmable ultrasound imaging system. With the current hardware, the imaging frame rate can reach 17 frames per second and 24 frames per second, respectively. Both simulations and metal phantom experiments were done to verify the feasibility of the above methods.