Industrial and manufacturing applications require surfaces to maintain a specific roughness, which ensures that part or component quality remains at optimal levels. A product’s performance and durability are impacted by surface finishing. To understand how important surface finishing can be, keep in mind that rougher surfaces typically go through wear and tear at a more rapid rate when compared to smooth surfaces.
Because the amount of friction on a rough surface is considerably higher than what it is on smooth surfaces, part quality may not be up to a facility’s level of standards. Any issues or irregularities with the smoothness of a surface can lead to the creation of nucleation sites. It’s common for corrosion and breaks to occur around these sites, which results in the material becoming worn more easily.
On the other hand, a small amount of roughness facilitates better adhesion, which can be important for specific materials and items. Among the most important components in surface finishing applications involves water, an ample amount of which is required for surface finishing to be completed successfully. All water that’s used during the plating process must be measured to ensure that a certain level of quality is maintained. These measurements are particularly important for rinse water.
During these applications, conductivity must be measured, which indicates chemical strength as well as contamination level. The ideal sensor when measuring conductivity during the plating and surface finishing processes involves the PEEK toroidal sensor, which comes with a high amount of chemical resistance as well as the ability to measure at higher temperatures. Here is a thorough guide on how surface finishing is used in light industrial applications.
What is Surface Finishing?
Surface finishing is a common industrial and manufacturing application that refers to a process that changes the surface of a metal by reshaping, adding to, or removing from the metal. The purpose of this process is to add protection to the metal and make it more aesthetically appealing.
The final result of the surface finishing process depends on the specific type of finishing that’s used. There are several different methods that industrial facilities will use to obtain similar surface finishing results. For instance, adding a coat of metal for surface finishing purposes can be accomplished with powder coating, wet painting, or anodizing. While the results of these processes are similar, they do differ somewhat, which can make all the difference.
When an industrial facility adds a surface finish to a metal, the final product will have a better appearance while also lasting for a lengthier period of time. The end-user benefits substantially from surface finishing because of these characteristics. However, certain surface finishing techniques can benefit manufacturers as well. For instance, brushing a surface before paint is applied allows for better adhesion with the metal. The primary benefits associated with surface finish processes include:
When it comes to light industrial applications, maintaining the right surface finish is essential for making sure that these applications remain reliable and consistent. If precision engineering is necessary during this process, measuring the surface may be the primary component for maintaining surface finish control. Implementing mass surface finishing techniques will allow for many parts to go through this process simultaneously.
Some of the techniques that are used during mass finishing include deburring, brightening, polishing, and descaling. Deburring is a loose abrasive technique that involves parts being tumbled alongside a finishing media in tubs or barrels. The finishing media that can be used throughout the deburring process include ceramic, metallic, organic, and resin-bonded plastic materials.
Surface Finish vs. Surface Roughness
While some industrial facilities use these terms interchangeably, their meanings differ. Surface finish is a term that facilities use to describe a surface’s texture.
Mechanical parts usually come with technical drawings that include surface finish requirements. In the event that mechanical parts are meant to move against one another, create a seal, or fit together tightly, it’s important that the right surface finish is used.
Surface finish is comprised of three separate elements, which include lay, waviness, and roughness. However, many people will only use surface finish to describe surface roughness. The roughness of a surface is only one facet of surface finish. This term refers to irregularities that exist in surface geometry.
Surface Finish Charts and Measurements
Each surface finish comes with micrometers and microinches ratings. These units of measurement have symbols of μm and µin respectively. The following chart displays the most common micrometer and microinch ratings along with their respective surface finishes.
25 μm/1,000 μinThese are rougher and low-grade surfaces that are obtained from rough forging or saw cutting. Because of the roughness of these surfaces, they are more suited to unmachined clearance areas.12.5 μm/500 μinThese surfaces are still considered to have a low grade and a high amount of roughness, which result from heavy cuts and relatively coarse feeds. These cuts tend to be the result of industrial processes like disc grinding, turning, and milling.6.3 μm/250 μinThis is a surface finish type that occurs from drilling, milling, surface grinds, and disc grinds. As such, they should be used for clearance surfaces that have special design permits or stress requirements.Surface Finish Symbols & Callouts
The symbols and callouts that are commonly used in the surface finish industry differ depending on where you live. Outside of the U.S., the International Organization for Standardization maintains the various surface finish symbols and callouts. In the U.S., this responsibility belongs to the American Society of Mechanical Engineers. You can find the primary surface finish symbols and their meanings on the ASME Y14.36M standard chart. Some more ASME surface texture symbols are available with this guide.
Conclusion
Surface finishing is a highly effective technique that’s used across many different industries and manufacturing facilities. When properly applied, a surface finish can extend the lifespan of an item while also enhancing its appearance. There are numerous finishes that can be applied to a surface, which is why the charts and symbols mentioned previously are essential when performing surface finishing in light industrial applications.
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