Mechanical processing (e.g. turning, milling, punching, lasering) produces edges, splinters or fraying on the workpiece due to the displacement of material. These are referred to as burrs. Steel, aluminum, castings and forgings are the main materials being deburred, but burrs also occur on wood or plastic parts.
Mechanical processing (e.g. turning, milling, punching, lasering) produces edges, splinters or fraying on the workpiece due to the displacement of material. These are referred to as burrs. Steel, aluminum, castings and forgeings are the main materials being deburred, but burrs also occur on wood or plastic parts.
There are different methods to remove burrs. These include brushing and grinding, vibratory grinding, but also thermal or electrochemical deburring and deburring using a high-pressure water jet.
Deburring can be performed with hand tools and power tools. In production environments, where high quantities are produced and process times and costs per part are important, workpieces are deburred automatically in machining centers and robot cells. In order to keep process times short, deburring is usually carried out in the same machining center in which the previou machining operation took place. Highly efficient brushes are used here, sometimes with the use of cooling lubricants.
To determine the appropriate deburring tool, the position of the burr and its accessibility, as well as the material of the workpiece and also the thickness of the burr must be analyzed.
There are five different types of burrs. The difference is mainly defined by the size and by the respective machining process.
It is usually caused by fine grinding. It is only a very small burr that is minimally connected to the workpiece. It is extremely easy to remove.
It occurs during grinding and is larger than the tinsel burr. The burr is connected to the workpiece and must be removed mechanically.
It is also connected with workpiece. Its size is similar to class 2. However, it is shaft-edged. As a rule, burrs of this type are formed by milling.
The foot of the burr is significantly larger than in class 3. Accordingly, the burr is firmly attached to the workpiece. It is created by processes such as slotting, broaching or turning.
The cutting tool virtually pushes the material in front of it. Aggressive machining is necessary to remove such burrs.
Evolution
SITUFT® internal brush with crimped Osborn wire arranged as a wing, high-end quality.
Evolution
HELITUF® internal brush with crimped Osborn wire arranged in a spiral, high-end quality.
Superior
Crimped wheel brush, industrial quality, for use on power drills and high-speed machines.
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Tube brushes with abrasive trim, industrial quality, for internal finishing.
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Wheel brush with crimped wire, industrial quality, for mounting on stationary machines.
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Wheel brush with crimped wire, industrial quality, for mounting on deburring machines.
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Multi-row wheel brush with crimped wire, industrial quality, for mounting on stationary machines.
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Micro-abrasive tube brushes, industrial quality, for internal finishing.
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Brushes for use on continuous deburring systems with planetary heads.
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Novoflex-B honing tool, high-end quality, for internal finishing.
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Wheel brush with abrasive bristles, industrial quality, for use on stationary machines.
Evolution
Wheel brush with abrasive trim, industrial quality, for mounting on deburring machines.