First, it makes your tool more rigid, which will allow you to make deeper cuts while minimizing tool deflection. A lot more rigid actually, since increasing diameter by 2x will increase its rigidity by a factor of 16x.

Carbide burs are widely used in metalworking, tool making, engineering, model engineering, wood carving, jewelry making, welding, chamferring, casting, deburring, grinding, cylinder head porting and sculpting. Carbide burs can be used in the aerospace, automotive, dentistry, stone and metalsmith industries.

Carbide burs (burrs) are generally composed of titanium or tungsten; diamond is the only material on the Mohs scale that is harder and also used for drill tips. This means they are ideal for multiple purposes due to the fact that they maintain sharper cutting edges for longer periods of time. Carbide burs (burrs) maintain their sharp edges 10 20 times longer than a stainless-steel bur (burr), depending on the frequency of use and the materials used with.

Non-ferrous are exactly what you would expect them to be. Use our cutting tools on non-ferrous materials such as aluminum, copper and magnesium.

Secondly, having more flutes on a tool creates smoother cuts, but it also leaves less space for chips to evacuate. This can be somehow overlooked if you are cutting soft materials, but not at all if you are cutting aluminium for instance. The reason is that aluminium produces very large chips compared to other materials. So when the end mill is cutting down in a hole or a slot, its flutes provide a crucial path for chips to escape. That explains why it is recommended to use 2 or 3 flutes end mills with aluminium since they have more chip clearance than with a 4-flutes one, where the chips will jam progressively, overlapping the cutting edges of your tool and making it break eventually.

The number of flutes on your end mill is a crucial parameter that depends mostly on the material you want to cut and on the capabilities of your machine. Indeed, the number of flutes on your end mill will impact:

This section could deserve an entire article, so let’s keep it concise and talk about the two main materials used to make cutting tools: HSS and carbide.

Each of these features has a direct influence on how the end mill will behave during a machining operation and on the cutting possibilities in terms of performance and shapes.

Based on those observations, I know that I need a flat-end mill type to get a nice flat surface inside the pocket. I will go for a diameter of 8mm, quite large because I don't want to waste too much time while removing all that material and because the inside corners are already designed to be rounded. I'll use a short carbide end mill as well, like 30mm long, because oak is a hardwood and I will need the rigidity to keep a high feed rate. Since the pocket is pretty shallow and chips will evacuate easily, I will choose a 3-flutes end mill with a 45° helix angle to get the best surface finish possible and spend little time hand-finishing.

General-purpose end mills typically have helix angles around 30°. Increasing the helix angle will reduce the cutting forces and the amount of heat and vibration generated during the milling process. Hence, end mills with a higher helix angle tend to produce a better surface finish on the workpiece.

Alloy-specific – heads have varying shapes used with certain metal alloys – used in the aerospace/aviation industry Base metal range – used for deburring on softer metals Bolt remover range – used for the removal of broken studs Foundry metal range – used for deburring on harder metals, stone, etc. Inox range – specifically used with stainless steel Locksmith range – used by locksmiths Long shank range – general-purpose; long shafts useful for deeper, hard-to-reach areas Miniature range – miniature heads useful for engraving and fine detail work New geometry range – used for all general metal removal Steel range – heads have specialized fluting to cut stainless steel Universal range – general-purpose, best on metals such as copper, iron, nickel, and steel

Combine an upcut and a downcut and you have a compression cutter, where the flutes are carved one way for the bottom half of the flute length and the other way at the top.  That feature makes them a very good candidate to cut plywood, composites, and laminates. Try to use one to cut a sheet of plywood in one pass, and you should obtain cleaner edges on both sides.

Since they can run way faster than HSS, they will increase your machine productivity a lot. They are also more durable and have a longer tool life, making them worth the investment.

On top of these geometric features, end mills are characterised by their type, number of flutes, material (and coating). Thus, in a classical catalogue, the end mill above would be described as:

There are as many different end mill types as there are possible cutting operations: profiling, contouring, slotting, counterboring, drilling,... Here is a short overview of the main ones.

Tapered end mills are centre-cutting tools that can be used for plunging, and are designed to machine angled slots. They are generally used in die-casts and moulds.

Since your tool is a cylinder with a certain radius, it won’t be possible to do it as such. Indeed, the tool will leave a circular profile in every internal corner, with a radius equal to half its diameter. The larger your end mill diameter, the bigger the radius of this circular profile. In order to overcome this problem, CNC operators use what is called “dogbones”. Dog bone corners describe the shape of a corner that is extended outside the cut area to create a perfect 90º corner.

At this point, it might seem smart to buy end mills that are as long as possible to have the flexibility to use them in more situations, right? It’s actually not the case, because the more stickout, the less rigid a tool is. If it sticks out too far and you work it too demanding, the cutting forces will make it bend, which is what is called “tool deflection.”

We accept debit and all major credit card payments including Visa, MasterCard, Discover, American Express and PayPal.  Fast and easy secure checkout with no account or login required.  If you have any questions, visit our FAQ page or contact us here.

Our USA made tungsten carbide burrs can be used on most hard materials including steel, aluminum and cast iron, all types of stone, ceramic, porcelain, hard wood, acrylics, fibreglass and reinforced plastics. If you use our burs on soft metals such as gold, platinum and silver, carbide burrs are perfect as they will last for a long time with no breaking or chipping.

Straight flutesend mills have a zero degrees helix.  They work well for materials where the lifting effect of a spiral flute might cause unwanted results, such as wood, plastics and composites. For those materials, the straight flute minimizes the fraying of the edges and provides better surface finishes than helical general purpose end mills.

Corner-radius end mills have slightly rounded corners that help distribute cutting forces evenly to prevent damage to the end mill and extend its life. They can create flat-bottomed grooves with slightly rounded inside corners.

As your CNC router spins the cutter clockwise, the helical direction of the flutes determines if chips are ejected towards the top or bottom of the workpiece. Upcut end mills are the most conventional ones, pullingthe chips away from the material, which is a very important feature for most milling operations on many different materials. It has a downside if you want to cut laminated materials since it leaves a poorer surface finish on the top of the workpiece. A downcut end mill has the advantage to push chips down, leaving a cleaner cut on top, but then it will also fray the bottom edge.

It comes with a trade-off, unfortunately. The end mill will be weaker and won't sustain heavy depths of cut with high feed rates. So lower helix angle cutters are stronger, but they give a less smooth surface finish.

Also, keep in mind that the cutting depth should never exceed the flute length of your end mill. If cutting deeper than the length of the flutes, chips won’t clear properly, heat will build up and you risk to damage your tool.

Aluminum Brass Bronze Carbon fiber Cast iron Ceramics Copper Fiberglass Gold Hard rubber Plastic Platinum Silver Steel Stone Titanium Wood Zinc

Roughing end mills are used to quickly remove large amounts of material during heavy operations. Their design allows for little to no vibration but leaves a rougher finish.

Coated Carbide end mills are more expensive than HSS ones, but they provide better rigidity and can be run 2 to 3 times faster than HSS. They’re also extremely heat resistant, making them suitable to mill tougher materials as well.

Carbide burs (burrs) are tools that are used for precision in cutting, grinding, and shaping the material with which they are being worked. Additionally, they are used for deburring, where burrs, excess materials, sharp edges, and weld beads are removed. Use carbide burs in industrial tools, such as air tools (e.g., die grinders), engravers, flexible shafts, and pendant drills, as well as for hobbies (e.g., Dremel tools). Their uses are varied and diverse, such as jewelry work, metalworking, welding, woodworking, and cover a range of industries, including aeronautics, aviation, automotive, dentistry, and metal and stone working.

Endmilling

The diameter of your tool will have a direct incidence on the profiles you can cut. Let’s say you want to make a box and assemble it using 90° interlocking joints.

Choosing the right end mill before turning on your CNC machine can be a pretty complex task. Many variables come into play, such as end mill length, geometry, profile type, material, while several trade-offs have to be considered: performance, cost, surface finish, tool life,...

Carbide burs (burrs) require a bit of special care to keep them performing optimally. To preserve the life of your carbide burs (burrs), ensure your handpiece does not wobble. The speed of your pneumatic rotary tool should not exceed 35,000 RPMs, and speed should be gradually increased. Please note, however, that higher speeds will prevent flute clogging inside the bur (burr). If you apply too much pressure to the bur (burr), the edges may chip, resulting in premature dulling.

What is an end mill actually, is it like a drill bit? It is a usual question that comes up since terminologies are often mixed up, but the answer is no. A drill bit is designed to plunge directly into the material and create holes only, while an end mill can cut laterally into the material and create slots or profiles. Besides, most end mills are designed to be centre-cutting, meaning they can plunge into the material as well and making them far more versatile than drill bits.

Imagine you want to mill a very deep pocket inside a high part. You will need a long tool to be able to machine the bottom without colliding your spindle mandrel with the stock of the material. Hence, the length of your end mill will be determined by how deep it must penetrate into the material. The associated concept with this observation is called “stickout”. It is defined by the distance from the end of the tool holder to the tip of the end mill.

Square end mills are the most common ones and can be used for many milling applications, including slotting, profiling and plunge cutting.

This article aims at explaining the basics of end mill science while answering the simple question you might have: which end mill should I use on my CNC machine?

High-Speed Steel (HSS) is the least expensive of the two, it provides good wear resistance and can be used to mill many materials, such as wood, metals,...

We use cookies to provide improved experience on this website. You can learn more about our cookies and how we use them in our Cookie Policy.

We manufacture a huge selection of carbide bur die grinder bits all made here in the USA.  All carbide bur tools are shipped same day ordered with delivery tracking.

Another easy way to increase the performances of your end mills is to add a good coating. The most common one, TiAlN (Titanium aluminium nitride), will allow you to cut 25% faster on average without spending too much money.

Answering these questions will help you determine the desired tool geometry, based on your project type, the material being cut and on the desired surface finish. So let’s dive into the theory and answer those questions later with some concrete examples.

Used on ferrous and non ferrous metals, aluminium, soft steel and also for all non-metal materials such as stone, plastics, hard wood and ceramic. Double cut have more cutting edges and will remove material much faster. Double cut will leave a smoother finish than single cut due to producing smaller chips as they cut away the material. Use for medium-light stock removal, deburring, finishing and cleaning. Designed for medium- light removal of material, deburring, fine finishing, cleaning, smooth finish, and creating small chips.

Usually used with stainless steel, hardened steel, copper, cast iron, and ferrous metals and will remove material quickly with a smooth finish. Use for heavy stock removal, milling, deburring and cleaning. Designed for heavy removal of material, milling, deburring, cleaning, and creating long chips.

EndMill

Feed rate is indeed directly linked to the number of flutes of your end mill: if you add flutes, you will have to increase the feed rate, or decrease the rotational speed of your spindle, to keep a constant chip load. So depending on the speed capabilities of your CNC machine and of your spindle, you might have to choose an end mill with less/more flutes.

Mekanika is a Belgian startup based in Brussels whose ambition is to make local production more accessible. We produce desktop machines for screen printing and CNC milling, which have been recognized for their quality and ease of use, with open source plans allowing makers to adapt their tools to their specific needs.

Flutes are the deep spiral grooves that allow chip formation and evacuation. They are the part of the end mill anatomy that create those sharp cutting edges (sometimes referred to as “teeth”).

Arch ball/pointed nose – engraving, texturing, increasing hole size Ball – concave cuts, hollowing, shaping, carving. Useful for wood, stone, metal engraving. Ball nose cone – rounding edges, surface finishing, tight spaces, and angles. Carbide Ball nose cylinder- contour finishing Ball nose tree (also known as tapered) – concave cuts and rounding edges Cone – rounding edges, surface finishing, tight spaces, hard to reach areas. Cylindrical – contour finishing and right-angled corners Cylindrical end cut – contour finishing Carbide Cylindrical no end cut – contour finishing Flame – channel work and shaping Inverted cone – v-cuts and rear-side chamfering Oval – die grinding and engraving Pointed tree – concave cuts, rounding edges, access to hard-to-reach areas, and acute angles. Rounded tree – concave cuts and rounding edges

Secondly, it improves your MMR (Material Removal Rate) since the end mill can remove more material per unit of time when it is moving inside the material, allowing you to optimise certain operations and do the same job faster.

If you don’t care too much about performance, then choose carbide end mills that are 8mm or less in diameter. Consider HSS for larger cutters to save some money, when the tool rigidity can be compensated by its larger diameter. Besides, if you are beginning with CNC milling, don’t forget that you might make mistakes and break a few end mills before getting it right, better HSS ones as well then.

In short, shorter end mills are more rigid and less expensive. So save the extra-long ones for operations where they are really needed