Deburring in Mass Production of Small Metal Parts

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Deburring in Mass Production of Small Metal Parts-Image

Deburring in Mass Production of Small Metal Parts
Mechanizing the Action of Hand Deburring for High Volumes
Without a doubt, the key to deburring of small metal parts is to not form a burr in the first place — which, not coincidentally, is one of the underpinnings of our metal cutting business. Our proprietary method allows us to cut thick-walled and thin-walled tubes, as well as hard, soft, and specialty metals, all without forming a burr. However, we know there are many metal fabrication processes for which our cutting method is not suitable, such as a cross hole in a machined tubular part, as well as other circumstances where a burr will, indeed, form after metal fabrication is performed.

Conceptually, the most obvious solution is what one does when one deburrs by hand; however, that process is simply not practical for high-volume production. Nevertheless, let’s take a look at hand deburring, because the same basic principal is what is needed when we mechanize the process for high-volume capability.
The Basics of Deburring by Hand

The classic hand deburring process uses one of two common types of tool designs: the curved blade and the countersink style. The curved blade type of tool acts as a curved tearing knife, while the countersink tool trades maneuverability for the ability to act on a full circle. It is these basic tool shapes and the actions they perform that remove the burr, typically from an edge of a metal part.

For example, variations of the curved blade allow you to use different wrist actions to achieve a chamfer or simply remove a protruding burr, or adjust the corner angle depending on whether the burr is inward or external. For right angle surfaces or burrs in two different directions, this type of tool is effective because it is optimal for straight edges or holes. While the countersink design obviously cannot act on straight edges and does not have the freedom of motion to work at different angles, it can quickly and uniformly deburr around a hole in one motion.

Why Deburr the Mechanical Way?
For our high-volume operations, our goal is to produce a burr-free surface without using electrochemistry or hand tools. Why? While electrochemistry has advantages in that it permeates into hidden corners and very hard-to-reach areas of small parts, its removable rates are relatively uniform except for known corner ratios. Simply put, that means electrochemistry does not distinguish between *burr* and *not a burr* — removing all material equally, acting on both the burr and the rest of the material at a steady rate. That is not a big issue if the burr is attached by a very small thread. However, if a burr is very thick or smeared, the very process of removing the burr may also risk removing too much of the part’s material.

As we said earlier, deburring by hand is impractical (not to mention costly and time consuming) for mass production. But before we turn to a mechanized solution, we need to think about what action it is providing. If the action is similar to what a hand tool provides, then the mechanical method is a good candidate for use in deburring.

The Basics of Mechanical Deburring
The main kinds of mass finishing machines used for deburring small parts are the barrel tumbler and the vibratory tumbler. A barrel tumbler, which removes large exposed burrs but is not ideal for parts with recesses, rotates a load so that parts slide down the barrel like rocks down a hill. In the process, the parts are abraded and deburred as they bump and scrape against the media and each other. A vibratory tumbler creates a scrubbing action of surrounding media against parts and is generally used for very smooth surfaces; compared with a barrel tumbler, a vibratory tumbler is very effective for recessed areas and twice the speed.

A vibratory tumbler produces an action similar to filing, applying an upward, angular force that causes a shearing action where parts and media rub together. The larger the parts or media are, the faster the cutting action will be. A vibratory tumbler grinds at an applied force that is five to ten times the force exerted by the free-falling action of a barrel tumbler. The cutting action of a barrel tumbler occurs on about 20-30% of the load; however, the entire load is cut with each pulse of a vibratory tumbler, resulting in a shorter cycle time.

A vibratory tumbler can be used on fragile parts with small radiuses because there is no tearing action or unequal forces to cause bends or distortion. A barrel tumbler excels at deburring parts with heavy radiuses or where more material can be removed and corners can be rounded off. While the speed and amplitude of vibration to be used will vary on different machines, in general high speeds and small amplitudes are used for fine finishes or delicate parts, and large amplitudes are used for heavier cutting. High speeds and large amplitudes can roll burrs in or peen metal into holes and mushroom edges.

Both types of tumblers use preformed media such as stone, ceramic, or plastic. Water is added to both carry away dirt and carry the media. As needed, chemicals may be used to to enhance the action or clean the parts. An abrasive is often added to enhance the cutting and deburring ability of the tumbling media. Interestingly, the abrasive itself mostly does not act on the parts; rather, it helps to keep the tumbling media rough enough to do the job.

Our Proprietary Deburring Method
Here at Metal Cutting, we use the action of mechanical devices such as our centrifugal barrel finishing and tumbling systems to re-create, as best we can, what hand deburring tools do. The challenge is getting access and having an inertial action — that is, getting into a very small, confined space and exerting sufficient action to deburr a part. And that’s a challenge we meet by utilizing our unique, proprietary inertial action. To find out if we can reach and remove the burrs in your part’s difficult-to-reach spots, give us a call.

You can also learn more about specifying metal parts cutting and finishing for your application by downloading a free copy of our comprehensive guide, *How to Fine-Tune Your Quote Request to Your Maximum Advantage: Frequently Asked Questions in Small Parts Sourcing*.

For tips on how to choose the right vendor for your metal parts needs, please download our free guide, 7 Secrets to Choosing a New Contract Partner: Technical Guide to Outsourcing Your Precision Metal Fabrication.

Metal Cutting Corporation manufactures burr-free tight tolerance parts from all metals. We provide the precision required by medical device, automotive, electronic, biotechnology, semiconductor, aerospace, fiber-optic, electrical and many other diverse industries.

We are specialists with over 45 years cutting, grinding, lapping, polishing and machining metal parts. Our experience, inventory and capabilities provide the skills and capacity to meet the needs of technology device manufacturers. Specialty metals, micron tolerances, low or high volumes, complex metrology--all these and more are the requirements we achieve every day for products shipped worldwide.