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TIP 56 MoldMaking Technology November 2015 The Benefits of Hand Scraping MACHINING By Sean Briars The use of hand scraping in machine tool manufacturing to increase accuracy levels has become less widespread with advancements in process control and machine stiffness. However, the benefits of hand scraping still exist when it is carried out in a controlled manner. Hand scraping is the process of using either a manual or motor-driven scraping blade to remove very small amounts of metal from a precision surface to eliminate high spots left behind by the machining process. This provides a flat, accu- rate bearing surface onto which machine components can be mounted. By increasing the bearing contact area between the mating surfaces, joint rigidity is increased in the machine tool. There are about 25 key surfaces that should be scraped on a vertical machining center to allow the machine to be "fitted" together rather than "assembled" for increased structural rigidity. Such fitted surfaces include, for example, column to base com- ponents, spindle cartridge to spindle housing, ballscrew bearing block seats to bearing retainer and worktable to linear guide truck face. Once this is accomplished, the end user will be able to take aggressive rough cuts followed by extremely fine finish cuts, improving tool life and surface finish, and reducing cycle times. Accuracy and flatness are two key advantages of hand scrap- ing, leading to improvements in machine loop stiffness, work- piece surface finish and component geometry. Machine loop stiffness and workpiece surface finish are improved by better con- tact areas of mating components. When a component is finish- machined, either by milling or grinding, small imperfections in the surface integrity or flatness are left behind. Then when two mating components are fitted, their structural rigidity is com- promised, because the inconsistent surfaces are not truly "flat." Hand scraping removes the high points to ensure additional contact for mounting. With hand scraping, the amount of contact over a given area of two mating components can exceed 50 percent, with 10 or more contact points per square inch. This improved contact allows machining forces to be passed through the structure to its strongest areas and helps prevent cutter impact frequencies from generating chatter. Component geometry also is improved through refinements in machine tool geometry. Hand scraping to qualified masters or gages removes surface imperfections, improving machine tool geometry. Once hand scraping is completed, alignments, including straightness, are greatly improved. This ultimately reduces the amount of electronic compensation required on the machine tool. For example, ballscrew brackets can be aligned to closer limits, improving laser interferometry results (a method for measuring distances with great accuracy) and reducing required electronic compensation levels. Axis straightness can also be improved by limiting the effects of roll, pitch and yaw. And squareness errors can be reduced to a few microns. All of this leads to improved volumetric accuracy within the machine tool that helps the end user achieve higher-accuracy parts and raises confidence that these accuracies are obtainable through- out the entire volume of the machine. Another classic example of where hand scraping is beneficial is in the alignment of a spindle to Z-axis motion. In most machine structures, this is achieved by pitching the spindle in the head casting and scraping the mounting face of the spindle flange. As this is one of the final alignments made in the setup process, it is not something that can be machined into the head casting and must be scraped after geometric checks have been made. A machine tool with better mating surfaces of its key com- ponents will provide consistent results over a longer period of time and will require less rework. With careful scraping meth- ods, a typical lifetime in excess of 10 years is not uncommon and can often be comfortably exceeded. FOR MORE INFORMATION: Hardinge / 800-843-8801 superprecision@hardinge.com / hardinge.com CONTRIBUTOR Sean Briars is principal development engineer for Hardinge Inc. Image courtesy of Hardinge Inc. Accuracy and fatness are two benefts of hand scraping that help improve machine loop stiffness, workpiece surface fnish and component geometry. I P VIDEO Access video at end of article. VIDEO: Hand Scraping Craftmanship short.moldmakingtechnology.com/scraping