This research mainly uses the automatic abrasive jet technology and takes scrap wafer surface of the semiconductor factory as an improving target in order to probe into the abrasive jet technology for cleaning scrap wafer surface circuit layer and improve surface polishing effect. This study has two processed steps that can be divided into the rough polishing and micro polishing processing method. First, the study of the rough polishing processing uses the Taguchi Method to obtain the optimization of manufacturing process parameters for scrap wafer surface roughness and remove weight on automatic abrasive jet technology. Second, in the micro polishing processing, the best combination of parameters are used to continue discussing the different of initial silicon wafer surface, machining time and abrasive mesh in turn. Expecting that the silicon wafer surface can be improved like a mirror after automatic abrasive jet technology. From the experimental result, we will find the automatic abrasive jet technology can clean the scrap wafer surface circuit layer effectively and conjugate the best combination of parameters by Taguchi Method, the silicon wafer surface roughness value can drop from 0.14μm Ra to 0.033μm Ra, and the silicon wafer surface is presented the reflection result of the mirror. Furthermore, studying and investigating the silicon wafer surface characteristic of material after the abrasive jet technology we will find that utilizing the SiC abrasive jet technology, the silicon wafer surface has no SiC to insert the surface effect and it does not produce any cracks which is observed by the metalloscope.