End mills are rotating cutting tools that shape a workpiece. It is a versatile tool that is suitable for various CNC machining operations. End mills produce accurate and precise cuts. Additionally, they are fast and compatible with many engineering materials.
As a novice or seasoned machinist, it is normal to wonder how deep this powerful tool can cut. While end mills can make deep cuts in a workpiece, there is a limit. This article will explain what end mills are, how deep this tool can cut through a part, and common end milling mistakes and how to avoid them.
What is an End Mill
End mills are special types of cutters used for milling, slotting, pocketing, and plunging operations. They move radially and axially to create accurate cuts in a workpiece. End mills are cylindrical and have cutting edges that run almost through. They come with sharp tips which can be flat, tapered, or rounded.
Furthermore, end mills are made using strong and durable materials including high-speed steel, cobalt, and carbides. Most times you will find them coated in titanium nitride or aluminum titanium nitride to improve wear resistance. Note that you can use end mills manually or with computer numerical control machines.
How Deep Can an End Mill Cut
The amount of material an end mill can remove varies and depends on a lot of factors. As a rule of thumb, the maximum depth and width of the cut should not exceed half of the end mill’s diameter. If you are using a ¼-inch end mill, the tool cannot go beyond ⅛-inch deep and wide in one pass. This ensures optimal performance and personnel safety. For better understanding, let’s look at factors that determine how deep an end mill can cut
Material Properties
The properties of the workpiece material will affect how deep the end mill can go. The harder a material, the shallower the cutting depth you will get in a single pass. The tensile strength and thermal conductivity of the workpiece also play important roles. Metals with high tensile strength will need more demanding tools and force to get the same depth of cut as those with lower tensile strength. Furthermore, the ability of certain materials to retain heat will limit how deep the tool can cut.
Tool Geometry
The shape and size of the end mill you are using will also determine the depth of the cut. Tools with a larger diameter will cut deeper into a workpiece without deflection. The flute length and helix angle are also essential. The longer the flute, the deeper the end mills go. Furthermore, tools with higher helix angles give room for more chip evacuation during CNC milling. Hence, you can cut deeply without fear of tool wear or breakage.
Cutting Parameters
The cutting parameters you use are crucial. Based on the properties of the workpiece material, you have to optimize important parameters such as spindle speed, feed rate, and depth of cut per pass. Higher spindle speed and faster feed rate enable deeper cuts. However, you will experience an increase in friction and temperature. Additionally, increasing the depth of cut will allow the end mill to remove more material in one operation.
Machine Capabilities
The capabilities of the machine are another factor that affects how deep an end mill cuts. These capabilities include rigidity and spindle power. CNC machines that have stiff and stable construction will allow for deeper cuts without compromising quality. Furthermore, the spindle power of the machine differs and depends on the brand and size. Machines with high power come with enough force and can handle aggressive cuts.
How to Cut Deep with an End Mill
Making deep cuts with an end mill requires a stepwise and careful approach. Let’s look at how to go about it
Pre-cutting Checks
Before cutting using end mills, there are certain things you should put in place. You have to select the right end mill for your project. Consider the length, diameter, flute type, and tool material. Thereafter, prepare the workpiece by cleaning it with suitable agents. Set it up on the machine and clamp it using workholding fixtures.
Set Cutting Parameters
The next step is to calculate the optimal depth of cut (DOC) using the manufacturer’s guidelines. You then set the speed, feed rate, and other cutting parameters. You do this keeping in mind the workpiece material and tool geometry.
Start Cutting
Apply lubricants to the end mill and start cutting. Start with shallow passes to check the quality of the cuts and how stable the cutting tool is. If needed, adjust the feed rate and spindle speed. Once everything has been optimized, begin the deep-cutting process with a step-down approach. You should monitor the operation to ensure everything is stable as the tool cuts through.
Inspect for Quality
When you are done, inspect the cut for quality. You can use hand metrology tools to check for cut depth and width. You then compare it to a standard. Assess the surface finish and further process it if necessary.
Common Mistakes When Deep Cutting with an End Mill
There are some common mistakes one can make when using an end mill. These mistakes, as simple as they are, can jeopardize the quality of the cut and the safety of the operator. The following is a breakdown of end milling mistakes and how to avoid them.
Pushing Too Deep on the First Pass
When deep cutting with an end mill, you may be tempted to push too deep on the first pass to save time. This does more harm than good. Taking a deep cut may cause the tool to deflect and break. Additionally, it increases the incidence of tool marks and scratches on the workpiece. To prevent this, start with shallow cuts and increase gradually.
Ignoring Tool Deflection
Tool deflection is common with end mills. The deflection and chatter are not the major problem, ignoring it is. Once you start cutting, you should watch out for tool deflection. Ignoring it will lead to uneven cuts and can shorten tool life. To avoid tool deflection and unnecessary vibrations, use tools made with stiff materials. Additionally, select the correct flute length for better stability.
Inadequate Chip Evacuation
When cutting deep into a workpiece, the production of chips is inevitable. As the cutting force increases, the tendency of chip build-up increases. These chips when left alone can clog the flutes and prevent the end mill from cutting further. For this reason, you have to use a proper chip evacuation system. Clearing out the chips from the cut zone will prevent overheating and prolong the tool’s lifespan.
Not Prioritizing Coolants and Lubricants
Using end mills to create deep cuts tends to generate heat. This high temperature can affect the cutting tool and workpiece itself. The material can expand and lose its shape in no time. Hence, it is important to use lubricants to minimize friction and coolants to prevent overheating. There are different types of coolants and lubricants in CNC milling. The type you use depends on the workpiece material and desired surface finish.
Poor Workpiece Fixturing
Cutting deep into a workpiece can cause it to vibrate and move out of place. This unnecessary movement is a result of inadequate clamping and fixturing. Poor workpiece fixture leads to mistakes and poor-quality cuts. When using end mills to make deep cuts, prioritize jigs and fixtures. Jigs positions and directs the movement of end mills. Conversely, fixtures hold the workpiece firmly.
Conclusion
End mills are important tools used in product development. They have applications in mold-making and machining aerospace components. You can also use them for cutting complex cavities and drilling holes. However, the cutting depth of end mills depends on many factors. These include the workpiece material, tool geometry, and machine capabilities. When using end mills, avoid cutting too deep during the first pass, and always use work-holding fixtures to properly secure the workpiece.