Taiwan is the third biggest exporter country of Machine Tool Industry in the world, only next behind Germany and Japan. In the machine tool industry, a sliding mechanism is one of the most commonly provided in mechanical devices. Therefore, we can improve the mechanical properties of the machine if the sliding surface friction characteristics can be predicted. A general application is the guide rail used in the feeding system for heavy-duty high-precision machine tools. These rails are prone to get wear and produce great friction. In order to reduce these circumstances, the contact surfaces of guide rail will should be scraped appropriately. However, there are many problems in scaping process. First of all, scraping process is usually manual by proficient worker, and mainly depend on their experience inheritance. Rather than enhancing the quality of scraping process, scraping process is time consuming. Hence, we expect to develop a laser scraping process to explore the impact of the processing parameters on the coefficient of friction and wear. 　　In this thesis, we focus on cast iron widely used in machine tools. Firstly, we design the surface texture based on the current scraping industry and utilize the laser surface texture processing to treat the surface of workpiece.Furthermore, we obtain the friction coefficient from the rotating tribometer, and discuss the differences with different patterns. Finally, we measure the depth of wear by a color 3D laser microscope. 　　It is noted that the friction coefficient of the specimen with surface texture is reduced when processing speed increased. However, the specimen without surface texture is completely opposite. For texture density, there is a lot of friction resistance in high density, but with less wear. The results also showed that the sliding mechanisms with surface texture have superior lubrication effect. In this study, we can understand the cause of tribological properties on scraping process parameters, and expect to replace part of the manual scraping to improve scraping the performance.