The working of each type of milling in machining involves designing the printed part, converting the design into G and M codes (instructions that the CNC machine understands), tooling & setup, and execution of the process.

The end milling is extremely favorable in the machining conditions where you need: An intricate profile, precise edges, slots, and grooves with varying depths, and a smooth finish on the workpiece surface.

When the cutter rotates, it traverses across the workpiece, or the workpiece moves under the cutter. Then, the cutter’s edges cut away the material to create the desired geometry.

Control of the cutter movement is manual, allowing the operator to cut the workpiece in the desired direction and orientation to shape it accordingly. Additionally, adjustments to the milling bed can be made using a handwheel. While manual operations are more time-consuming and less precise, they provide flexibility in terms of cost and customization.

Do you know how CNC machines create irregular contours? This is achieved through form milling, which involves using cutters shaped as the negative of the desired contour. For instance, to machine a turbine blade, a cutter is first made with a geometry that mirrors the blade’s shape. This method allows for precise and custom shaping of complex designs.

The tools used in gear milling include gear cutters, gear hobbing machines, and form mill cutters. These tools enable highly accurate shaping of gear teeth, surpassing the precision offered by other gear generation techniques.

Saw milling is executed by a large cutter with teeth around its circumference. This method is particularly useful for creating narrow slots and dividing the workpiece into two parts. The cutter moves downward, slicing through the material with continuous feeding.

Angular features in CNC machined parts are often achieved through angle milling. In this operation, the cutter’s axis is angled relative to the machining surface, while the workpiece is held in the required orientation using an angle plate or fixtures.

Moreover, this operation can handle almost every type of gear, regardless of shape and complexity, such as spur gears, bevel gears, helical gears, and rack and pinion setups.

Fundamentally, these two operations involve different feeding mechanisms. In conventional milling, the tool (or cutter) rotates opposite the feeding direction. In contrast, in climb milling, the tool rotates along the feed direction.

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This method stands out due to its capacity to simultaneously machine two parallel surfaces on a workpiece, maintaining uniform distances between them.

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Slotmilling operation

This technique is particularly useful in a variety of applications, including creating automotive suspension mounts, machining channels or slots in aircraft components, producing molds for injection or casting, fabricating medical implants, and constructing heat sinks for electrical and electronic appliances.

Moreover, CNC saw operations extend beyond just slots and parting-off tasks typical of traditional machines. They are also capable of producing other geometries, such as slight curves or profiles.

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The basic types of milling machines include horizontal and vertical milling machines. Here, the categorizations are based on the axis movement and orientation of machines.

It is one of the most popular ones among different types of milling operations. The end mills execute this operation by feeding the work into it in a perpendicular or angled direction. Meanwhile, the multiple cutting edges on the faces and periphery of the end mill remove the material while feeding the workpiece.

Plain milling is noted for its consistent material removal capabilities among various machining operations. It is ideally suited for light machining or finishing touches. For instance, it first strips material from the outer layer of larger workpieces, setting the stage for further machining processes.

End milling operationsteps

Complex shapes and features in CNC milling are only achievable by selecting the appropriate operations for your project. Each operation offers unique advantages and capabilities for creating specific geometries. Moreover, advanced machines and a suitable set of cutting tools are essential for performing these diverse operations effectively. Only then can the exact desired results be achieved.

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Endmill cutter specification

One prime advantage of this method is its high material removal rate, attributed to its tool geometry. This allows for rapid part production with a smooth finish. Face machining is particularly effective for creating flat surfaces in applications such as automotive cylinder heads and heat sinks.

The Gear Milling Operation tends to incur the highest cost because it requires specialized cutters, long cycle times, and precise setups.

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End millingvs facemilling

The Plain Milling or Slab Milling is the most cost-effective one. It involves simple cutters and a straightforward material removal mechanism from a flat surface. However, you can not create intricate shapes only with this operation.

Furthermore, two other popular techniques or operations are vertical and horizontal milling based on the spindle orientation. For in-depth understanding, you can read Horizontal vs. Vertical Milling here.

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As the name says, it refers to machining a side of the workpiece using side milling cutters or end mills. The vertical and horizontal milling machines can perform this task. During the operation, the lateral edges of the rotating cutter (side teeth) remove material to form flat vertical surfaces, edges, grooves, slots, complex contours, fins, and more. The cutter features helical flutes specifically designed to target the sides of the material, in contrast to operations that focus on the top surface, such as plain machining.

The cutters precisely machine the workpiece at specific angles, which can be fixed such as 45°, 60°, or 75°. This method is used for creating features like slight chamfers, bevels, T-slots, dovetail slides, and other intricate geometric profiles.

Do you know how many operations are needed to create an automotive gearbox? The answer is many, including face milling, end milling, and gear milling. It is just an example showing that different operations cumulatively create a final part. It applies to almost every project.

The machine parameters such as spindle speed, feed rate, and cutting depth are crucial in selecting the right milling operations. The reason is that these parameters affect the finish, accuracy, and production speed. Additionally, the machine settings like axis movement capabilities, work holding, and rigidity should be also compatible with the milling operation you want to execute.

As the operation name, it is for cutting the internal and external threads in the workpiece. For internal threads, an insert tool chips away the material from the existing hole’s surface to form the threads. In contrast, it can easily produce the desired external threads using the right type & size of thread mill cutters or thread mills. Provided that, thread milling is more useful for the internal thread on the large-size holes.

Furthermore, specificity is crucial even after selecting the operation. For example, when choosing a cutter for end machining, options include flat end, ball nose, or corner radius, each suited for different applications.

The extremely high level of precision needed within the aerospace industry makes CNC machining a suitable manufacturing process for the sector.

CNC milling is the most precise and speedy operation because of automation in the machining process. The computer control of tool movement and workpiece positioning eliminates the chance of errors and reduces the time significantly. Almost every operation is possible with a CNC milling machine, although the right tools or cutters are necessary for any particular operation.

The latest multi-axes machines (3 to 6 typically) enable intricate shapes & details on the workpiece with greater precision. Consequently, the applications are wider than any other milling, from automotive and aerospace to medical components.

End millingmachine

The thread milling parts can be found across industries, from automotive engines to consumer products. Everywhere for assembly and other purposes.

How does straddle milling manage to machine two faces in a single setup? It employs two or more side cutters mounted on a single arbor that remove chips from the material surface during the feed. As a result, this operation is ideal for creating parallel slots, grooves, and various profiles on a workpiece.

What areendmills used for

Application Examples: Dome-topped pistons, orthopedic implants, turbine blades, die-making, guitar body, custom prototypes, etc.

Moreover, choosing the types of CNC milling operations according to 3D design ensures the optimal result. For instance, face operations smooth surfaces, while thread operations precisely cut threads. This ensures that each specific task is addressed with the most suitable technique.

Fundamentally, each operation involves removing the materials from a workpiece using milling cutters attached to the movable spindle. However, the tools and spindle movement differ from one type to another.

Gear milling is a specialized operation used to refine manufactured gears to precise dimensions and surface roughness, or to create detailed tooth profiles. For instance, it can refine an extruded bevel gear to achieve a surface roughness of Ra 1.2 µm. In some cases, it can also manufacture a complete gear from scratch.

The CNC milling process is one of the most prominent methods in manufacturing. This process utilizes various materials and shapes them into desired parts or products. However, a CNC milling machine can perform numerous types of milling operations to handle intricate designs.

The hex head is formed with high precision so each edge can be accurately locked into screws to minimize any possible damage to the screw.

Why is it called gang milling? Because it involves multiple cutters—such as end mills, form cutters, and slab mills—mounted together on a single arbor to create complex features and intricate details. This setup allows for various operations to be performed simultaneously on a workpiece, resulting in reduced machining time and increased efficiency.

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End millingCutter

If you want to produce high-quality machined parts with a sleek appearance, it’s essential to consider some critical factors related to CNC machining.

Endmill cutter types

Another thing in design complexity consideration is whether you can optimize the tool path with the chosen operation as needed or not.

The application diversity of CNC milling technology comes from its diversity in the capability of executing the different milling operations to address countless machining requirements, from a slot to intricate undercuts. We will discuss 12 of them later. Before that, let’s see a short overview of those operations.

The surface finish requirements are another consideration in milling operation selection for your Design. This is because each operation produces a surface with different roughness levels. So, select the operation that can achieve the Ra value needed for the functionality and aesthetic of the final product.

Application Examples: Jigs, fixtures, brackets, levers, gears, sprockets, transmission & axle housings for automotive, etc.

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This categorization is about the type of geometry the milling can create. It could be a flat surface, angular features, threads, irregular shapes, or specialized geometries like gears or mechanical CAM.

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In manual operations, the operator sets the workpiece and tools in the machine by hand. Milling parameters such as depth of cut, RPM, and feed are also manually adjusted.

The CAMS are essential components in different mechanical systems and machinery for converting linear motion into rotational or vice versa. Meanwhile, the CAM milling operation produces these components with a diving head tool. This tool facilitates the rotation of the workpiece to position it so the tool can remove the surface materials according to the designed CAM profile.

This article will discuss different milling operations in detail, elaborating their advantages and applications. By the end, you will be able to choose the right milling process for your project.

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However, Saw milling operations are generally slower than other methods due to the large size of the cutter, which can generate significant heat during rapid material removal, potentially causing thermal damage to both the work material and the cutter.

First, the work material type significantly impacts the choices of types of cnc milling operations as variations in the properties difference directly impact the material removal rate and tool wear.

Not all cutters are compatible with all milling operations. Each type of operation has its own set of compatible cutters, and using the wrong type can result in subpar results or even damage the tool and workpiece.

This operation is specifically for machining flat surfaces and contours on the workpiece. Using cylindrical cutters with straight or helical teeth, it removes materials to create flat or stepped surfaces, slots, and recesses. The cutter’s axis aligns parallel to the workpiece surface.

This operation flattens the workpiece surface. As part of vertical milling processes, the cutters used in this method have an axis of rotation perpendicular to the surface, aligning the tool’s face parallel to the workpiece. Consequently, the cutter’s sharp teeth remove material, while the end face smooths the surface.

Thus, the operation you wish to use should be compatible with properties like hardness, thermal conductivity, and toughness. For example, conventional milling is challenging to shape hard materials like tool steel.

Typically, Form milling is known as the most precise milling operation as it involves a single pass mechanism that significantly lowers the tool deflection and inaccuracies.

Therefore, only correct operations choices according to the 3D model guarantee the project’s success. For that, consider the factors that influence the result of various types of operations performed on a milling machine.

Not all milling techniques can create complex and intricate details on a workpiece. Some operations are suited only for simple profiles and shapes, such as plain, face, and slot techniques. On the other hand, operations like end, thread, and gear are renowned for their ability to produce complex parts and components.