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How Does Milling Collet Types Work?

Author: Marina

Jul. 15, 2024

69 0 0

Tags: Hardware

Machine Collet 101: How To Choose The Right Collet

For more information, please visit Milling Collet Types.

What is a collet and what is a collet used for? Our tech expert Kurt Repsher introduces you to the most popular collet types in this video, and explains the differences between R8 Collets, ER Collets, 5C Collets, and more. Subscribe to our YouTube Channel and be the first to see more awesome videos like this one!

 

What Is A Collet & what Are Collets Used for?

A collet is a form of chuck that forms a collar around a tool, like an end mill or drill for example, and exerts a strong clamping force on the object when it is tightened. It may also be used to hold a workpiece. Collets reliably allow fast chucking (tool changes), strong and steady clamping, and precise self-centering that makes them critical for repetitive work. Collets provide accurate alignment and static friction, making their use essential for a variety of machining applications.

Common metalworking industry-standard designs are R8 (internally threaded for mills) and 5C (usually externally threaded for lathes). The most common type of collet grips a round bar or tool, but there are collets for square, hexagonal, and other shapes. Customizable, easily machined collets include emergency collets (e-collets) or soft collets (available in an unhardened state allowing them to readily be machined as needed). Step collets are also available, and those 'step up' to a larger diameter from the spindle, allowing larger workpieces to be held.

 

R8 collets are designed for use in milling machines. Unusually, R8 collets fit into the machine taper itself (there is no separate chuck), and tools with integral R8 taper can also be directly fitted. The R8 was developed to allow rapid tool changes and requires an exact match between the collet and tool shank diameter. R8 collets have a keyway to prevent rotation when fitting or removing, but it is the compressed taper and not the keyway that provides the driving force. Collets are compressed by a drawbar from above, they are self releasing and tool changes can be automated.

 

ER collets are the most widely used clamping system. The standard series are: ER-8, ER-11, ER-16, ER-20, ER-25, ER-32, ER-40, and ER-50. ER collets collapse to hold parts up to 1mm smaller than the nominal collet internal size in most of the series (up to 2mm smaller in ER-50, and 0.5mm in smaller sizes) and are available in 1mm or 0.5mm steps. Thus, a given collet holds any diameter ranging from its nominal size to its 1mm-smaller collapsed size, and an ER collet set provides a wide range of versatility. With an ER fixture chuck, ER collets may also serve as workholding fixtures for small parts, in addition to their usual application as toolholders with spindle chucks.

 

5C collets are designed for work holding. 5C collets have an external thread at the rear for drawing the collet closed, allowing workpieces to pass right through the center of the collet and chuck (5C collets often also have an internal thread for locating a workpiece against the inserted work stop). Variations of these collets are also available to hold square and hex stock. 5C collets have a limited closing range, requiring shank and collet diameters be a close match. 5C collet sets offer a variety of sizes, allowing you to have the 5C collet you need readily available.

 

Emergency collets have a machinable face that allows you to bore an opening to exactly the size and shape you need. All have external and internal threads, and allow you to readily machine and customize as needed.

 

A step collet features a wide head that can be machined to hold large workpieces that wouldn't otherwise fit in a standard collet. Step collets have external threads. 

 

 

The Do's & Don'ts Of Collets


DO: DON'T:

Do Always Use The Right Size Collet For The Tool Or Workpiece Being Held: c

ollet should be held securely, with no 'give'. Don't T

ry To Tighten A Tool Or Workpiece Into A Collet That Is Not Intended For That Size:

doing so can damage the tool or workpiece and increases the risk of an accident or downtime. Do Ensure Most Of The Tool Shank Is Securely Held In The Collet:

doing this increases the collet's ability to securely hold your tool, reduces the risk of failure and injury, and stabilizes the tool, resulting in a better cut and finish on your workpiece.

Don't O

verextend A Tool Held By A Collet To Allow It To Reach Further: doing this decreases the collet's ability to securely hold your tool, increases the risk of failure and injury, and creates chatter that can impact workpiece finish.

Do Regularly Clean Your Collets Between Usage:

simply blowing off chips and debris from the collet's surface extends the collet's life, ensuring its ability to properly secure tools.

Don't Leave Chips & Debris on The Surface Of Your Collet:

without regular cleaning, the outside of the collet and inside of the toolholder will become worn and less effective.

 

Travers Tool offers a wide range of metalworking collets with expanding, flex and quick-change designs. Choose individual collets or collet sets, and accessories from quality brands including Lyndex-Nikken, Parlec, ETM, Shark Tools, and more. Shop our website for our complete line of machine collets. Request technical support should you require additional assistance selecting the right collet for your machine or application.

Quickly & easily Identify the right collet 

Download our free collet dimension & specification chart! Find comprehensive reference tables that list the dimensions and specifications of the most popular collet styles including:

  • R8 Collets
  • 5C Collets
  • ER Collets
  • DA (Double Angle) Collets
  • SA75, PG75, or TG75 Collets

CNC Collets: Types and Maintenance Tips

If you are from the manufacturing or construction industries, the term &#;collets&#; is probably familiar to you. There are many types of collets used in many different industries and applications. For this article, we shall focus on collets used in rotary tool holders typically found in CNC machining (milling) centers.

Before we get into the nuances of collets, it is vital to understand how collets work, what impacts their performance, how to maintain collets for long service life, and how to recognize when to replace them.

What are Collets?

Collets are the critical connection between the cutting tool and the tool holder (also called a collet chuck). Most collets are round, cone-shaped, and slotted. Collets encircle the cutting tool shank to evenly distribute holding power around its center bore.

As we continue to explain more about collets, it will first be helpful to understand the basic anatomy of collets and of a collet chuck system. The illustrations below will help provide a general understanding of the parts of a collet and collet chuck system.

 

 

How Collets Work?

The tapered collet base is made to fit into the collet pocket of the collet chuck body. The tapered design of the collet base and collet pocket allows the collet to be centered in the pocket as it is pushed in by the collet nut during setup. This centering effect enables the collet to achieve a high degree of accuracy (concentricity); much more than drill chucks and side-lock style holders.

As the collet is pushed into the pocket by the collet nut, the slots in the collet allow the I.D. bore to collapse and apply clamping pressure to the cutting tool shank. The result is a very strong and rigid clamping force on the cutting tool. Since the collet base is tapered to match the collet pocket, tool runout (T.I.R.) is reduced.

 

What are the different types of collets?

Collets come in many different types and sizes. Here is an overview of three of the more popular types of collets, along with the pros and cons of each system.

 

Double-Angle (DA) Collets

Double-Angle (DA) collets have been around for a long time and continue to be used in the market. There are, however, many issues associated with DA collets of which users should be aware.

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One of the primary issues with DA collets is that they essentially clamp on the cutting tool shank with only two opposing faces in the I.D. bore. DA collets have four slots in the front of the collet and four slots in the back of the collet creating four clamping faces. However, when DA collets are tightened towards the lower end of their collapse range, two of the faces tend to be pushed out of the way so only two of the faces are clamping on the cutting tool shank. This may cause some runout at the nose when the tool is inspected in a presetter.

Additionally, when the tool begins cutting and side forces are applied to the cutting tool, the cutting tool tends to deflect into the area where the faces are not clamping on the tool shank. This results in excessive chatter that dramatically reduces tool life and results in rough surface finishes. You will be hard-pressed to find a quality end mill holder manufacturer endorsing the performance of their tooling in DA collets.

 

TG Collets

TG collets have about the same accuracy as DA collets, but because there are more slots, and therefore more faces clamping on the cutting tool shank, they tend to deliver greater holding power. TG can be a good solution for larger shank diameter cutting tools, but they generally limit how far down into a pocket you can reach due to interference with the collet nut, as TG collet nuts tend to be quite large.

TG collets are not as popular as ER collets for several reasons. Most notably, the larger diameter collet nuts can require the use of extended end mills to avoid interference from the collet nut when milling pockets. Also, since TG collets have a very small collapse range, they are intended for use with one size cutting tool shank. ER collets, by contrast, offer a large collapse range that can be helpful when clamping odd-shank diameter tools.

On the flip side, TG collets tend to have a bit more holding power than ER collets due to the collet base having a 4° taper as opposed to the 8° taper found in ER collets. This can make TG collets a good choice when machining with longer-length cutting tools.

 

ER Collets

The ER collet system has become very popular due to the flexibility of the system to hold a variety of cutting tool shank types including drills, end mills, and taps. Also, ER collets provide several solutions for increasingly popular coolant-through cutting tools.

Most standard ER collets have between a 0.020&#; and 0.040&#; holding range, making them a good choice when needing to hold odd-sized cutting tool shanks. This holding range also means fewer ER collets are required to hold a range of cutting tool shank diameters as opposed to other collet systems like TG.

The popularity of the ER collet system has led to several variations to hold a wide assortment of cutting tool shanks. Some ER collets have been modified with squares at the bottom to hold taps. Others have been modified to provide quick-change capabilities or compensation (also called &#;float&#;) for rigid tapping cycles as shown in the images below.

Other modifications include special slotting designs that seal around the cutting tool shank and force coolant through channels in coolant-through tooling, as well as modifications to include coolant ports in the collet that direct coolant to the cutting area.

Collet Maintenance Tips

Collets are a high-precision wear component of a tool holding system and require maintenance to ensure accuracy. First, it&#;s important to remember that collets are the softest component in a collet-based tool-holding system assembly and are designed to wear out.

Here is an overview of the wear pattern of a collet-based tool-holding system. The machine spindle is harder than the tool holder (a.k.a. collet chuck) that fits into the spindle, so any wear between these two components will mostly occur to the collet chuck. That&#;s good, as it protects the spindle from expensive maintenance. Collets are softer than both the collet chuck body and the cutting tool, so any wear forces between these items will mostly occur to the collet. Since collets are generally the least expensive component in a collet chuck tool holding system, it is preferred that the collets wear out before the other components.

Worn-out collets will not achieve the same level of accuracy and rigidity that newer collets can provide. The result is more chatter when cutting workpieces, less accuracy, and shorter cutting tool life. A good rule of thumb is to replace collets every 4-6 months to maximize the performance of your tooling. Again, collets are designed to wear out and are generally the least expensive component in the system. It is much less expensive to replace the collets as opposed to prematurely wearing out cutting tools.

The following tips will help you in maintaining collets:

  • Clean the collet with a cloth and the interior with a little brass brush (sometimes the broken ends of tools & other debris can become lodged within).
  • WD40 should be sprayed on fresh collets before being cleaned with a cloth. By doing this, the protective coating applied to collets before they are packaged will be removed (something that can make it harder to grip tools).
  • Ensure that there is no debris in the slots as this could reduce the clamping force. If an obstruction is seen in a slot, use a thin object, like a knife&#;s tip, to remove the obstruction.

 

 

Wrapping Up

Given the wide range of benefits offered by collets, they are one of the most indispensable tools in the manufacturing industry. To get the most from your collet-based tooling system, it is important to use best-in-class products to produce top-notch quality.

This is exactly where Techniks Tool Group can help! Offering a wide range of collets and collet chucks, our experts will help guide you to the best solution for your needs. Our collets are trusted by some of the largest manufacturers in the world. Check out our collets and get started on your journey!

 

 

Frequently Asked Questions (FAQs)

1. How do I know when to replace collets?

Collets are designed to wear out as they lose accuracy and rigidity with use. High side-load forces during milling operations cause cutting tool deflection as illustrated below.

Over time, these side-load forces will bell-mouth the collet at its face.

As the collet experiences bell-mouthing, the cutting tool is allowed to deflect more and more during milling operations. Unfortunately, the collet may still indicate good accuracy on a presetter where there are no side-load forces. However, once the tool is put into service and begins experiencing side-load forces, the cutting tool is allowed more room to deflect, resulting in increased chatter and reduced tool life.

It is recommended to change collets out every 4-6 months, depending on usage, to ensure the most rigid and accurate collet chuck assembly.

2. Are there other signs that a collet should be replaced?

Yes. Any signs of fretting on the collet indicate the collet is vibrating in the tool holder. Fretting appears as rust-colored spots typically at the highest point where the collet sits in the collet pocket of the collet chuck.

This is not rust but rather an indication that there is a vibration between the collet and the collet pocket connection. The vibration causing the fretting is also reducing cutting tool life. If you see signs of fretting on the collet, it is advised to replace the collet. You should also ensure that collet nuts are tightened to the correct torque specifications during setup.

 

3. What is the correct method to assemble a collet and collet nut?

It is critical to properly assemble the collet and collet nut to avoid damage to the collet and make the most accurate and rigid assembly possible. The extraction groove of the collet must be properly seated to the extraction ring of the collet nut.

First, angle the collet so the extraction groove seats with the eccentric extraction ring in the collet nut as shown below.

Next, while holding the collet and nut together, place the assembly in the tool holder and begin tightening the nut. If the collet extraction groove is not properly seated to the collet nut extraction ring, the collet will appear seated below the face of the nut. This typically occurs when the collet is placed in the collet pocket of the tool holder and then the nut is threaded on the tool holder. In a correct assembly, the collet will seat at the face of the collet nut. The image below shows a correct assembly on the left and an incorrect assembly on the right.

DO NOT tighten the collet nut if the collet appears seated below the face of the nut as this will create galling on the 30° face of the collet. Galling appear as grooves or lines in the lead face of the collet.

Galling on the lead face of the collet can result in reduced clamping pressure on the cutting tool shank that may lead to the cutting tool slipping while cutting, or even tool breakage.

When trying to ensure the most rigid and accurate collet chuck assembly, don&#;t take chances.

When in doubt, throw it out!

Remember, the collet is designed to wear out and is the least expensive component in a collet chuck system.

 

 

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