Carbide End Mill

End milling is ideal for machining workpieces with complex shapes, contours, and intricate profiles because it can cut in multiple directions at once. It’s also great at creating slots or narrow channels in a workpiece. End milling allows for customization and precision when profiles with specific shapes or features need to be cut. Milled items come away with good finishes on flat, even surfaces. With careful tool selection, this technique is suitable for all cuttable materials. End milling ensures accuracy and repeatability when you need tight tolerances and high precision. It is also used in both prototyping and production scenarios, making it easy to scale up for mass production.

End Mill bits

It's essential to consult with machining shops or service providers to determine the specific cost of end milling for a particular project. Luckily, at Xometry, our instant quoting engine makes getting pricing and lead times for machining projects simple.

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End milling is commonly used for profile cutting, slotting, contouring, and complex 3D machining tasks. Conventional milling is more often used for facing, squaring, and smoothing out flat surfaces.

The M-series, for instance, gets its name from the primary alloying ingredient, molybdenum, a hard, heat-resistant element sitting at number 42 on the periodic table. M2 tool steel—the stuff of most drill bits—contains 5% molybdenum, but there are also M50, M7, and a few others, all of which provide differing degrees of flexibility, hardness, and toughness needed for holemaking operations.

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Traditional milling, often referred to as conventional milling, differs from end milling primarily in the direction of tool rotation and the cutting forces applied during the machining process. End mill tools rotate in the same direction as the feed motion, which is typically clockwise when viewed from above. This means that the cutting edges on the bottom and side of the end mill engage with the workpiece simultaneously.

Aerospace manufacturers use end milling to produce critical components like aircraft structural parts, engine components, and turbine blades. Its automotive use is widespread for engine blocks, cylinder heads, transmission components, tooling, and other parts. The tool and die industry relies heavily on end milling when creating molds, dies, and tooling of all types. End milling is used on printed circuit boards (PCBs) and electronic enclosures and components. The medical industry employs end milling to manufacture surgical instruments, orthopedic implants, dental prosthetics, and medical devices. End milling is used for creating intricate designs in wooden furniture and toys. It can also shape and cut plastic and composite materials. End milling is used in the production of components for energy generation and distribution, including wind turbine parts, gas and steam turbine components, and power transmission equipment.

A ball end mill is a cutting tool with a hemispherical tip. It is designed to provide precision contouring, slotting, and machining of complex 3D shapes. The spherical tip allows for smooth and accurate machining of concave surfaces, filets, and curved profiles, smoothing the cuts into each other with minimal aliasing. Ball end mills can be used for both roughing and finishing operations — as well as in 3D contouring applications — simply by varying cut depth and feed rate. They generate lower cutting forces than do flat end mills, as the cut transitions into the material progressively along the bit’s radius. Ball end mills come in single-flute, two-flute, and multi-flute designs to suit different machining needs. The variations each clear chips differently.Â

This list is by no means complete, but we’d be remiss in not tagging a few members of the tool steel family. These include D2, A2, H13, S7, and other tough, heat-treatable, and wear-resistant metals used to make everything from plastic injection molds to stamping dies to high-speed steel (HSS) cutting tools.

Compared to regular M2 tool steel, M35 and M42 are indeed super. Where "regular" M2 HSS comes in at a hardness of around 62 HRC, M35 starts at 65 HRC and M42 measures 67 or so. That doesn't seem like much difference, but together with cobalt's greater heat resistance, it supports higher cutting speeds—depending on the brand and whether the drill is coated, this might mean 50% faster spindle RPM and commensurately higher feedrates. Either way, be sure to follow the cutting tool manufacturer's recommendations.

End mill vs drill bit

In conventional milling, the cutting tool rotates in the opposite direction to the feed motion (typically counterclockwise when viewed from above). This results in cutting forces that can push the workpiece down onto the worktable. End milling tends to produce smaller, more manageable chips, which can help it clear chips and extend the tooling’s lifespan. Conventional milling tends to produce larger, continuous chips, which can be more challenging to evacuate.

The purpose of end milling is to precisely cut and shape materials to create specific features, profiles, and surfaces. It efficiently removes material from workpieces, cutting portions away until the item’s shape meets the planned dimensions. End milling also allows for the creation of complex shapes, contours, and intricate geometries in workpieces. Beyond that, it can create simple slots, pockets, and holes of various sizes and depths in workpieces.

It’s this last group, HSS, that we’re here to discuss today, along with that most widely used of all cutting tools, the drill bit. Despite their broad popularity, relatively low cost, and excellent mechanical properties, you’ll soon see why HSS and its cobalt counterparts aren’t always the best cutting tool materials for your drilling application. Read on.

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That brings us to tungsten carbide, more commonly referred to as carbide or sometimes cemented carbide. Think of it as cobalt on steroids. It's been around for nearly one hundred years but didn't come into widespread use as a cutting tool material until after World War II, when Kennametal founder Philip M. McKenna developed the first indexable carbide cutting tools. Since then, this extremely hard and wear-resistant material has consumed an enormous swath of the cutting tool market, drill bits included.

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End milling is used to remove material from the surface of a workpiece. It begins with the workpiece securely clamped onto the machine's work table or fixture. The spinning end mill is brought into contact with the workpiece's surface, and the cutting edges engage the material. The machine's spindle rotates at high speed to minimize vibration and cut cleanly. The work table itself moves the workpiece around the fixed cutting spindle. As the end mill rotates and the workpiece advances, the cutting edges of the end mill remove material from the workpiece's surface. Chips that get cut away are continuously removed from the cutting zone by the machine's chip evacuation system or by the motion of the end mill itself. The machinist or CNC (computer numerical control) program controls the speed, feed rate, depth of cut, and toolpath.

End Mill Drill Bit

A dovetail endmill (sometimes referred to as a fishtail end mill) is specifically designed to cut dovetail grooves and slots. They work on many materials, but are most commonly employed in wood. The tip of the tool is angled to match the desired dovetail angle — typically 45 degrees — but they’re available with other tip angles as well.

The spindle is a rotating drive that holds the cutting tool, generally in a collet chuck. It provides the rotational power necessary for material removal. The worktable is where the workpiece is clamped or mounted. It can move in multiple directions — X, Y, and Z axes in the most basic setup and up to 12 degrees of freedom in more advanced machines. Guideways are linear bearings or rails that guide the movement of the worktable and other machine components. They ensure smooth and precise motion even while the cutter is applying forces. In a CNC machine, the control panel houses the machine's control system and programming features, which allows the operator to input G-code and machining parameters and monitor the machining process. Manual machines use hand controls and generally have a 3-axis position measurement system. The tool holder or chuck securely holds the end mill on the spindle.

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A V-bit or V-carving mill is a specialized cutting tool that’s meant for engraving and carving operations. The conical tip with a sharp point allows for precise engraving and detailing. V-bits excel in engraving text, logos, decorative patterns, and fine details on all materials. They come in various angles, but the most popular are 60° and 90°.

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End Mill Cutter

As to the question “when should a cobalt drill bit be used," the answer is straightforward: anywhere you would use an HSS drill. Cobalt, however, will in most cases last longer than its less wear and heat-resistant cousin, and as we've seen, run much faster besides. The only caveat is that cobalt drills, due to their greater hardness, are more brittle than HSS. The user must therefore take extra care to align them properly and avoid the radial tool pressures that might occur when drilling into intersecting holes (hydraulic manifolds, for example) and angled surfaces.

Milling machines come in various configurations and sizes. However, they share several key features and components essential for their operation such as:

A corner rounding end mill is a specialized cutting tool used to round the sharp internal corners of a workpiece. It features a cylindrical shank with a radiused tip. Various radius sizes are offered, allowing machinists to select the curvature they want for internal corners. They are used for creating tool-defined filets on internal (and to a lesser extent external) corners of cuts. Rounding sharp corners removes sources of stress concentrations in parts. These tools are ideal for contouring and finishing work.

Flat End Mill

What are end mills used for

Since we’re comparing cobalt drills to those made of carbide, we won’t delve too deeply into the different types of carbide drills except to say that solid carbide is the closest equivalent from a size, length, and application perspective. After this come replaceable tip modular drills and indexable insert drills for larger holes (say anything above 1-1/2" in diameter).

End milling is a machining process used in metalworking, woodworking, and other material shaping/removal processes. It is used to cut or shape materials using a rotating end mill. The process is used for a wide range of tasks, including: slotting, contouring, facing, and profiling workpieces. End milling can be used to create a huge range of features on a workpiece such as slots, pockets, holes, complex contours, and mixed forms. It is a fundamental process in manufacturing and is employed across all manufacturing sectors to precisely cut and shape: metals, plastics, wood, stone, and composites. The choice of end mill type, size, and cutting parameters depends on the specific machining requirements and the material being worked on.

Before beginning any milling operation, you must first select the right end mill tool for your material. The material’s hardness, abrasiveness, thermal conductivity, and chip properties are all important considerations.

There’s neither the time nor space for a complete lesson on tool steels. Those interested can read more about it in this sample from ASM International’s Handbook, Volume 16: Machining Handbook. Otherwise, just know that so-called Mushet steel, which most consider the first true tool steel, left the furnace more than 150 years ago.

This last question is a good one. The answer comes down to the job quantity, machine setup and rigidity, and available budget. Let’s start with expense. As with anything that offers greater performance, carbide cutting tools cost significantly more. How much more depends on the manufacturer and tool geometry, but you can figure at least twice the price for substantially greater tool life and perhaps 10-20 times the metal removal per drill.

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Roughing end mills are employed in first-stage roughing operations to quickly remove material before finishing cuts are made with finer tools. This tool class enables high material removal rates.

Replace some of the iron found in M2 tool steel (and all steels, for that matter) with cobalt and you get “super high-speed steel.” The addition of 5% cobalt, for instance, gives us M35 tool steel, while 8% cobalt and some additional molybdenum make M42 tool steel—whenever anyone talks about cobalt drill bits, they are referring to one of these two.

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At 82 HRC, give or take, tungsten carbide is much harder than cobalt or HSS. This is carbide’s only Achilles’ heel—where cobalt will flex a fair amount in the face of radial cutting forces, carbide will in many cases shatter. This means that proper alignment is critical for tool life and hole accuracy (which is true of any drilling operation). And when breaking through into intersecting holes as in the manifold example just given, the feedrate should be reduced slightly until the drill stabilizes.

Machine shops, maintenance personnel, and the manufacturing community overall face off against a veritable universe of different materials each day:

A similar argument can be made for everything from high-end kitchen appliances to CNC machine tools, and if your shop has one of the latter, don’t short-change its potential by using low-cost drills and other cutting tools. Not only does carbide provide cutting speeds at least four to eight times that of cobalt, but far higher feedrates as well. And because carbide drills also support a feature unavailable with their cobalt cousins—coolant through-the-tool—there’s no need to peck. When coupled with high-pressure coolant (HPC), solid carbide blows the doors off traditional drills.

Additionally, end milling can improve the surface finish of workpieces when employed as a post-process following casting or other less refined cutting techniques. It is precise and accurate, making it suitable for tasks that demand tight tolerances. End milling is a key process in both prototyping and production environments, allowing you to scale production from trial to moderate and potentially high-volume production.

Because it could cut metal much more quickly than the hardened carbon steel tools of the day, they dubbed it high-speed steel. As you will see, that moniker has since become a bit misleading, as tungsten carbide cutting tools—though a bit less forgiving than HSS—are far faster and therefore much more productive.

Square end mills feature flat, square-shaped tips with sharp corners. The flat, square tip allows for straightforward machining of flat surfaces, slots, and profiles with sharp corners. Square end mills are suitable for both roughing and finishing operations on all materials. They are excellent for creating sharp 90° corners and edges. Square end mills are best suited to general-purpose cutting. They exist as two-flute, four-flute, and multi-flute types for different machining requirements.

A roughing end mill can efficiently remove significant amounts of material from a workpiece, especially during the initial stages of machining. It is designed with a coarse and rugged geometry that allows for aggressive material removal while withstanding high cutting forces. Key features of a roughing end mill include multiple flutes, coarse tooth design, high helix angles, corner radii, and Weldon shanks.

Ball Nose End Mill

This last point is important, since all cutting tools, whether they are HSS, cobalt, or tungsten carbide (more on this shortly), benefit from coating, be it TiN (titanium nitride), TiAlN (titanium aluminum nitride), or one of the other many tool coatings available on the market today. It’s also important to note that, despite what some websites suggest, there’s no such thing as a titanium drill bit (only drill bits coated with one or more of the thin film materials just mentioned).

The cost of end milling varies significantly, depending on the number of parts required, the material type, precision, surface finish, custom workholding, and task geometry/complexity.

That’s not to say cobalt is obsolete, however. For prototype work and low-volume jobs, carbide’s higher cost probably doesn’t make sense. Nor is it appropriate for repair work or unstable machining conditions, where deflection can lead to disaster. Cobalt is also more suitable for softer materials like mild steel or aluminum, although here again, carbide's greater hole quality and straightness easily justify its use in higher-volume applications. At the end of the day, choosing the right tool means doing the math, asking questions, and being open to new technologies. Get drilling.

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A finishing end mill is a specialized cutting tool used to achieve high-precision surface finishes and tight tolerances on workpieces. Finishing end mills often have high helix angles, which help evacuate chips, increase the angle of attack for finer cutting, deliver better surface qualities, and reduce heat buildup during cutting. They are used to make fine cuts to minimize cutting forces and vibrations.

Milling machines generally have a coolant system that delivers cutting fluid or coolant onto the cutting tool and workpiece. It acts to dissipate heat, improve tool life, and enhance surface finishes. Machines often also include features for chip management — such as chip conveyors or chip augers — to remove chips and swarf generated during machining and leave the cutting space clear and unobstructed. Enclosures with electrical cut-off interlocks protect operators from flying debris and create a safer working environment. In CNC machining centers, a tool changer is used to automatically swap pre-calibrated and racked tools that have been prepared for later machining stages. Various gripping devices such as vises and clamps serve to secure the workpiece on the worktable. These can be customized, quick-release, or more generalized devices.Â

Regardless, metallurgists have continued adding various amounts and kinds of alloying elements to the tool steel crucible, among them tungsten, vanadium, chromium, and, most relevant to this discussion, cobalt. The result is six distinct groups of tool steel and many dozens of grades, a few of which we mentioned previously.

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Soft materials are typically machined using standard HSS (high speed steel) devices such as square, ball, or flat end mills. Hard materials require carbide, diamond-like carbon (DLC), or aluminum titanium nitride (AlTiN) coated HSS for improved wear resistance. Abrasive materials like composites demand end mills with wear-resistant coatings. Heat-resistant materials require end mills with specialized coatings to reduce friction and heat generation. Sticky-cutting materials (e.g., some plastics and aluminum alloys) may require end mills with high helix or variable flute designs in order to evacuate chips. Brittle materials such as ceramics require specialized end mills designed for low-speed machining to minimize the risk of cracking. Composite materials may demand end mills with diamond or polycrystalline diamond (PCD) tips to prevent delamination. Wood cutting often uses standard end mills, while plastics may benefit from sharp or single-flute end mills to reduce melting and burning.