What Is Face Milling?

What Is Face Milling?

In CNC machining, face milling is a method of removing material from the surface of a workpiece to make it smooth and flat. In this milling method, the face milling cutter is placed perpendicular to the surface. This results in the removal of the same amount of material with each milling pass. This process is important in areas where very smooth surfaces are required. Examples include the manufacture of automobiles, aeroplanes, and large machinery.

The machinist can adjust the machining process to obtain different amounts of material removal and surface roughness on the milling machine. This is to meet the specific needs of the milling operation. This article details the face milling method and how it differs from other milling operations. We will also discuss its uses and how to get the best results.

Table of Contents

What is Face Milling?

Face milling is a specific type of CNC milling process. Its cutting action takes place on the end face of the tool while the tool rotates perpendicular to the product being machined. The purpose of face milling is to create a flat, smooth surface. This process is usually performed before further machining or as a finishing process to improve surface quality.

Face milling uses specialized tools that cut large areas with each process. It is therefore ideally suited for the levelling of metal, plastic and composite surfaces. Face milling and end milling are often compared because they serve similar purposes. However, they cut metal in very different ways and use very different tools.

Face milling cutters with replaceable inserts

How Face Milling Works

Face milling has several important steps that must be performed correctly to obtain the correct accuracy, regularity, and surface finish. For best results, you need to know how to perform each step from preparing the workpiece to selecting the correct depth of cut.

Preparing the Workpiece

As with any milling operation or process, the part must be prepared correctly. This will result in a flat, smooth surface with the correct characteristics. First, the workpiece must be securely fastened so that it does not move during the cut. If the workpiece is too loose or improperly secured, it can lead to errors, tool deflection, or even damage to the machine or the workpiece itself. Therefore, a stable base helps maintain the quality of the workpiece while milling.

Choosing the Right Tool for the Project

The tool type depends on the workpiece’s material, the desired roughness, and the overall goal of the operation. There are many common choices, such as indexable surface milling cutters, shell milling cutters, and fly cutters. Each type of cutter has its advantages:

  • Indexable Surface Milling Cutter: This type of cutter is ideal for heavy-duty work. This is because the cutting inserts can be changed.
  • Shell Cutters: These cutters are suitable for roughing larger workpieces.
  • Fly Cutters: Ideal for machining smaller workpieces to a smooth surface.

Each type of cutter has a specific milling task. So the machinist can choose them according to the project requirements.

How to Get the Best Tool Path and Feed Rate

In face milling, tool path, and feed rate are two important parameters that affect the quality and speed of machining. The feed rate tells the milling cutter how fast it can remove material. The tool path tells the way the milling cutter moves across the workpiece. By focusing on these factors, tool wear can be reduced. In addition, a uniform workpiece surface can be obtained and productivity can be increased.

Controlled feed rates result in a smoother surface and ensure that material is removed efficiently. Higher feed rates speed up the machining process but can affect surface finish. Lower feed rates, on the other hand, improve surface finish but take longer to process.

Starting Face Milling

Once the workpiece is fixed, the tool is selected, and factors such as the tool path and feed rate have been fine-tuned. Then the milling process can begin. During this process, adjust the spindle speed and add coolant as needed. This helps prevent overheating of the work area, extends tool life, and improves overall surface finish.

In most CNC face milling operations, automation helps ensure consistency across multiple parts. It ensures that each part has the same level of accuracy and finish.

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Different Types of Face Milling Cutters and Their Uses

Depending on the amount of material to be removed, the desired surface quality, and the individual properties of the workpiece, face milling can be performed using different cutters. Below we describe some of the most commonly used types of milling cutters:

End Mills

The end mill is a very useful and versatile tool. It can machine complex shapes and give surfaces an excellent finish. As end mills can accomplish fine machining. Hence they are usually used for face milling and peripheral milling tasks.

Shell Milling Cutter

Shell Milling Cutter is a large milling cutter that is mainly used for roughing, i.e. removing large amounts of material. These milling cutters cut powerfully and robustly and are therefore capable of machining even large workpieces. Among milling tools, shell milling cutters are usually used for flattening large surfaces. This is usually in preparation for finer finishing steps.

Fly Cutters

Fly cutters are single-point cutting tools that can be used to machine small parts. Since the fly cutter has fewer cutting edges, the machining speed is slower. However, it gives a smooth and even surface, which is very useful where a smooth surface is required. In addition, fly cutters are also very flexible as they can machine many different materials without making many changes.

Uses of Face Milling

Face milled surfaces are flat and smooth, making them ideal for businesses that need precisely customized parts. Additionally, face milling can be used to level surfaces, punch and slot holes, or prepare them for other steps. Here are some of the most important of these uses:

Leveling Surfaces

Levelling the surface of a workpiece is one of the main jobs of the face milling process. It enables rough or uneven workpiece surfaces to be made smooth and flat. This step is essential in order to provide a stable base for further machining or to make the finished product look clean and smooth.

Removal of Excess

In addition, it is often used for large removal tasks. Especially when large amounts of excess material need to be removed quickly. This function is usually used in the roughing process in preparation for finishing and finer details.

Finishing Operations

For many projects, this is the final step in the finishing process to obtain a smooth surface. After machining, the part has a smooth surface that meets the needs of the design in terms of appearance and function.

Slot and Groove Milling

This type of milling can also be used for slot and groove milling. Holes can be punched in the workpiece by changing the tool path. As it is very flexible, it can be used to machine flat areas and certain types of internal features and details.

Face Milling of Large Workpieces

Heavy-duty face milling cutters are suitable for machining large workpieces. For they can cover large areas quickly. In such cases, shell milling cutters are often used to machine the surface. This makes them ideal for machining parts for the aerospace and automotive industries.

Inclined Face Milling

By changing the direction of the face milling cutter, inclined areas can be machined. This method allows for the machining of angled features on a part, such as chamfers or bevels, without having to switch to another milling method.

Preparing the Part for the Next Machining Step

Face milling is usually performed first in the machining process. This prepares the part for the next operations such as drilling, end milling, or peripheral milling. By machining a flat, smooth surface, the subsequent steps can be completed more precisely.

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Advantages of Face milling

Face milling is one of the most common milling processes in many industries. This is because it offers many advantages.

Flatness and Accuracy

Face milling produces very flat and accurate parts. This is important where precision is important. The process ensures that the workpiece has a reliable base for the next machining steps.

Smooth Surface Finish

If the right face milling cutter is selected, it can give the workpiece a smooth, attractive surface for projects with specific requirements. The surface of the workpiece will be more aesthetically pleasing and smoother if the correct face milling cutter is used and the depth of cut is set correctly.

High Material Removal

Face or shell milling cutters and other CNC tools excel at cutting large amounts of material quickly. During roughing, this high cutting rate helps to reduce machining time and cost.

Versatility

Face milling technology can be used for a wide range of materials and tasks. For example, from roughing large surfaces to finishing complex parts. Due to its versatility, it is ideally suited for both roughing and finishing steps.

Face milling cutters are more durable.

Most face milling cutters have a long service life. Especially those with replaceable inserts. Cutters made of carbide or with improved coatings have a longer service life and do not need to be replaced as often.

Face milling cutter with multiple cutting inserts

Disadvantages of Face Milling

The face milling method has many advantages, but there are some disadvantages to consider. By understanding these limitations, the machinist can wisely determine their suitability for a particular job.

Higher Tooling Costs

Purchasing face milling or surface finishing tools is usually more expensive. This is especially true of tools that are used for high-speed machining or that utilize high-tech materials such as carbide. Over time, an indexable face milling cutter with replaceable inserts can save you money. However, it is expensive to purchase, especially when used for large workpieces.

Complex Tool Setup

To set up a face milling process, you must select the tool path, spindle speed, and tool very carefully. In addition, changes in the depth of cut and feed rate need to be carefully calculated. If the process is not set up correctly, poor milling results, tool wear, or surface roughness may result.

Flat Surfaces Only

Face milling is best suited for producing flat surfaces and is less suitable for producing complex shapes. For workpieces requiring fine detail or non-planar surfaces, end milling or peripheral milling may be better.

Surface Variation on Large Workpieces

It is difficult to obtain a consistent surface finish on very large workpieces. The uneven surface finish may result from small variations in tool balance or tool wear. This is especially true on large workpieces that require multiple machining.

How to Apply Coatings and Select Materials for Face Milling Cutters

Selecting the right coatings and materials for face milling cutters has a significant impact on the efficiency, life, and machining productivity of the cutter. The right coatings and materials enable the tool to perform different machining tasks better. And they also extend the tool’s life.

Coatings Commonly Used for Face Milling Cutter

Titanium nitride (TiN) and diamond coatings are two coatings commonly used for face milling cutters. Each coating has its advantages, e.g.

  • Titanium Nitride (TiN): TiN-treated tools are harder and more durable. It can therefore be used for high-speed milling and machining of hard materials. In addition, this coating reduces friction and helps to lower machine temperatures.
  • Diamond Coating: Tools with diamond coating can be used for machining very hard materials and are not easily damaged. As they work best when machining rough materials such as composites. Therefore, in most cases, they are more expensive than other coatings.

Commonly Used Cutting Tool Materials

Most face milling inserts are made of either carbide or high-speed steel (HSS). Each material has its advantages:

  • Carbide: Carbide is ideal for high-speed and heavy-duty applications. Because it is so hard, it will not melt at high temperatures. It is often used in high-end CNC machine tools. This is because durable and efficient tools are very important in these machines.
  • High-Speed Steel (HSS): HSS tools are less expensive and can be used for a variety of medium-speed tasks. However, they are well suited for jobs that do not require a lot of power or for cutting soft materials.

How to Make the Most of Face Milling

To achieve effective face milling, different factors need to be considered depending on how the industry works. These factors include choosing the right tool, machining variables, and feature positioning. Some of the following tips may be helpful;

Selecting the Right Tool

Selecting the right tool is the first task in successfully completing a face milling project. Select the right face milling cutter for the workpiece material, the desired surface finish, and the required removal rate. This will then ensure that the job is completed quickly and efficiently while reducing tool wear.

Keeping the Cutter Balanced

To prevent vibration and reduce cutter wear, it is important to keep the cutter balanced. Unbalanced cuts will result in rough surfaces at different locations and may shorten tool life.

Use the Recommended Spindle Speed

The optimum spindle speed for each job depends on the material of the workpiece and the type of tool used. Following the spindle speed recommendations given by the manufacturer will help keep the tool in good working order and reduce wear.

Do not Mill Slots or Holes.

When you mill in the face of an existing slot or hole, the tool may tilt, damaging both the tool and the workpiece. Carefully plan the tool path away from these locations. Unless you want to perform slot or recess milling.

Using CNC Automation

The automation features in CNC technology make it easier, more accurate, and more consistent to machine multiple flat-milled parts. Automated milling operations are especially useful for high-volume production where consistency is important.

Face Milling vs. Peripheral Milling

Face milling and peripheral milling are both common in CNC machining, but they are often used for different purposes. Let’s take a closer look at the differences between them.

Surface Finish Comparison

In most cases, face milling is better for machining flat surfaces. Peripheral milling, on the other hand, is better for machining edges and curves, and the finish may not be as good as the former.

The roughness, or Ra value, also differs between these two types of milling. About 0.4 microns for face milling and 1.3 microns for peripheral milling. However, the exact value depends on the feed rate, material type, and spindle speed.

Material Removal Rate Differences

The orientation of the tool in face milling allows it to remove material faster. This is because it is able to machine a larger area with each milling. On the other hand, peripheral milling removes material debris at a slower rate. However, it is the best method to obtain fine features and complex shapes.

Direction of Cutting

In face milling, the tool moves perpendicular to the surface of the workpiece. In peripheral milling, the tool moves along the side of the workpiece. Due to the change in direction, face milling is more suitable for machining flat surfaces. Peripheral milling is more suitable for machining contours and slots.

Yonglihao Machinery’s CNC Milling Services

Yonglihao Machinery offers a complete solution for companies that need reliable, high-precision face milling. With Yonglihao Machinery’s CNC milling services, businesses can choose from different types of materials, surface finishes, and depths of cut to create accurate parts. Whether your job requires face milling or more complex peripheral milling. Yonglihao Machinery can provide you with the tools, knowledge, and support you need to get the results you need.

Yonglihao Machinery ensures that both face milling and peripheral milling jobs are optimized with its state-of-the-art tools and skilled workers. At Yonglihao Machinery, we reduce errors and ensure consistency through advanced automation. This reduces wait times for prototyping and mass production. With our help and customization options, you can be sure that your design will come to life.

Summary

Face milling is one of the most important steps in CNC machining. This is because it enables the machining of smooth, flat surfaces for many different materials. To get good results in your machining operations, you need to understand what face milling is. In addition, you may need to know how to properly use tools, techniques, and best practices. From choosing the right face milling cutter to fully utilizing the spindle speed and feed rate, each step affects the surface quality and accuracy of the overall workpiece.

Face milling is useful in many fields. Examples include automotive, aerospace, and heavy equipment manufacturing. Because it has both shell milling cutters for large surfaces and flying cutters for fine machining.

Yonglihao Machinery’s professional CNC milling services make the process easier by prioritizing accuracy, speed, and stability. Adopting the right method not only improves product quality but also increases productivity. This makes it an important technology in modern manufacturing.

FAQ

What is the Purpose of Face Milling?

Face milling is mainly used to machine flat areas on a piece of work. Face milling is often used in roughing and finishing tasks where smooth surfaces and precise measurements are required. It can be used in many areas and is often the first step in other machining processes. Examples include the automotive, aerospace, and heavy equipment manufacturing industries.

What is the Difference Between Flat Milling and Face Milling?

The main difference between face milling and flat milling is the cutting method and the surface to be machined. Face milling cutters are perpendicular to the surface of the workpiece, so a flat, even surface can be machined. Flat milling, on the other hand, usually places the machine horizontally so that the side of the cutter is in contact with the product. This method is suitable for machining recesses, grooves, and contours along edges.

What is the Difference Between a Face Mill and a Fly Cutter?

A fly cutter is a single-point cutting tool used for machining smooth, flat surfaces on smaller workpieces with high machining quality. Face milling cutters have multiple cutting edges or inserts for rapid material removal over a large area. In addition, fly cutters have fewer cutting edges and have slower machining speeds. On the other hand, fly cutters are mainly used for fine machining. Face milling cutters are better suited for rapid chip removal and a wider range of machining than fly cutters.

How Deep Can Face Milling Cutters Cut?

The depth of cut depends on the type of cutter, the object to be cut, and the performance of the machine tool. Face milling can usually cut a few millimetres deep. To maintain accuracy and surface quality, the optimum depth of cut should be selected based on factors such as tool wear, speed, and material removal rate.

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