Chip load is a critical factor in determining the speed and efficiency of your CNC machine. It’s the size of the material removed by each flute of the cutting tool as it passes through the material. One of the key goals in CNC machining is to generate chips, not dust. If you’re producing dust, you’re not cutting efficiently, and you’ll wear out your bit faster.

With your speed and feed calculations, you are ready to go. Whether you are cutting steel, aluminum or titanium, making precise adjustments to speed and feeds will affect the performance of your machine. Take the time to choose the right values ​​and your tools will stay sharp and your machine will run smoothly.

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It’s like the difference between the revolutions of a tire (RPM) and how fast your car is going on the road (cutting speed). Both are related but measure different things. For CNC tools, the cutting speed is often listed in surface feet per minute (SFM), while RPM is what you’ll need to input into your control system.

These calculations provide a starting point. However, it’s important to adjust these values based on the specific milling conditions and your machine’s capabilities. Often, manufacturers provide recommended values for RPM and chip load based on their tools’ performance with different materials, which should be taken into consideration.

Feed rate formula for turning

Not only do chips help keep the tool cool, but they also affect the overall quality of your cuts and the lifespan of your tools. Large, well-formed chips are a sign that things are running smoothly.

Let’s say you’re cutting steel with a cutting speed of 300 SFM and using a ¾-inch diameter end mill. Plugging those numbers into the formula gives you an RPM of:

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How to calculatefeed rate for drilling

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Feed per revolution Calculator

If you’re switching between milling and drilling, pay close attention to the feed per tooth vs. feed per revolution differences. For milling, you’re using feed per tooth for your calculations, while for drilling, you need to work with feed per revolution.

With the correct group identified, your tool catalog will give you a recommended cutting speed range. If you see a range (e.g., 200–300 SFM), choose based on your setup. A more rigid setup can handle the higher end of the range, while a less stable setup should stick to the lower end. No matter what, remember: that slower speeds generally extend the lifespan of your tool.

Millingspeeds and feedsChart

Turningspeeds and feedscalculator

End mills that use PCD (polycrystalline diamond) for the cutting edge of this tool have a life of 10 times or more than carbide tools to provide efficiency.

Using the wrong method can throw off your entire operation, so double-check that portion of your catalog when setting up drills versus end mills.

Modern cutting tools often come with special coatings, and each coating has a sweet spot for cutting speeds. Be sure to use the right speed for your exact tool; otherwise, you risk faster wear or, worse, tool failure. If in doubt, contact your tool rep—they’ll know what to suggest.

How to calculateFeed Rate for lathe

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Once you have the RPM, the feed rate can be calculated using the number of teeth on the cutter and the chip load per tooth, which is the amount of material removed by each tooth of the cutter per revolution. The formula for feed rate is: Feed Rate (IPM)=RPM×Number of Teeth×Chip Load (IPT)

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If your tool isn’t taking enough of a bite, it can rub against the material, causing excess heat and reduced tool life. If it takes too big of a bite, it risks breaking the tool. Start small, and increase if you see no issues with your cuts.

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Millingspeeds and feedscalculator

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For example, if your tool has a feed per tooth of 0.003 inches, 4 teeth, and an RPM of 1528, your feed rate would look like this:

The cutting speed varies based on the material being milled. For example, common materials like aluminum may have a cutting speed of around 250 SFM, while harder materials like stainless steel might be around 30 SFM.

How to calculatefeed rate for milling

Welcome back to another CNC tip that every machinist needs to master: calculating speeds and feeds. It’s a key part of CNC programming, and while the formulas may seem complicated at first, we’ll break everything down so you can get it right every time. Whether you’re running a full production setup or just doing some home machining, you’ll want to bookmark this guide.

Once you’ve got your RPM, the next job is to figure out the feed rate. This is how fast the cutting tool will travel through the material along the machine’s axis. The feed rate is essential to ensuring the right chip load, keeping your tool from wearing too fast or overheating.

The chip load also depends on the material and cutter type. For example, chip loads for milling aluminum might range from 0.005 to 0.010 inches per tooth.

The feed per tooth (also called chip load) is usually found in the same section of your tool catalog as the cutting speed. It’s a very precise measurement of how much material each cutting-edge bites into per revolution.

The spindle speed depends on the cutting speed of the material and the diameter of the tool. You can calculate the RPM using the formula:

Before we even touch the formulas, let’s define cutting speed and spindle speed. These two terms are often confused, but they’re pretty straightforward once you get the hang of them.

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Calculating the feed rate for milling involves a combination of selecting the correct spindle speed (RPM) and the feed rate per tooth (IPM) to optimize the cutting process for efficiency and precision. Here’s a basic guide on how to calculate feed rate in a typical milling operation:

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So how do you set your machine to create the right chip size? The answer lies in calculating your chip load correctly and pairing it with feed rates and spindle speed (RPM).

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