The deburring operation is performed by the deburring tool to remove burrs. Burrs are thin ridges, usually triangular in shape, and are typically an unwanted piece of material that develops along the edges of a workpiece during operations such as machining, shearing sheet metal, and trimming forgings and castings. Burrs can be detected by simple means, such as with a finger, a toothpick, or a cotton swab. Visual inspection of burrs includes the use of magnifiers and microscopes. Although efforts at defining burr are being made, there are no widely accepted standards, partly because there a variety of burrs can develop on parts.
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| Deburring Operation |
Disadvantages of Durrs:
Burrs have several disadvantages, few of them are:
- They may interfere with the mechanical assembly of parts, causing jamming and misalignment, as well as short circuits in electrical components.
- Because they are usually sharp, they can be a safety hazard to personnel.
- Burrs may reduce the fatigue life of components.
- Sheet metal may have lower bendability if the burr is on the tensile side. On the other hand, burrs on thin, drilled, or tapped components can provide additional thickness, thereby improving the holding torque of screws.
Deburring Operations Include:
- Manual deburring with files and scrapers. It is estimated that manual deburring can account for up to 10% of the part's manufacturing cost.
- Mechanical deburring is performed by machining pieces such as cylindrical parts on a rotating spindle.
- Wire brushing or using rotary nylon brushes consisting of filaments embedded with abrasive grits.
- Using abrasive belts.
- Ultrasonic machining.
- Electropolishing.
- Electrochemical machining.
- Magnetic abrasive finishing.
- Vibratory finishing.
- Shot blasting or abrasive blasting.
- Abrasive flow machining.
- Thermal energy machining using lasers or plasma.
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