3D Printer Bed Leveling: Easy Step-by-Step Guide

Last modified: August 12, 2022
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Estimated reading time: 6 min

3D printer bed leveling is crucial to print success. Learn all you need to know and follow 3 steps to level your 3D printer bed.

Why Do You Need a Level Bed?

A great first layer almost guarantees a good print! (Source: Reddit)

Much of the magic in FDM 3D printing is in the filament. The material behaves predictably at certain temperatures, making it possible to control its form, enabling us to produce a 3D printed object.

There are various things you must consider when using a 3D printer in order to get a high-quality, successful print. And one of the biggest is a level print bed, as it lets the material extrude evenly across the entire build surface.

In this article, we’ll be going over everything you need to know about leveling the bed, starting with how to identify when you might have a problem. Later, we’ll also discuss when and how you should be adjusting Z height, which can sometimes come into play.

When to Level the Bed

If your first layer is off, it’s not a good sign for the rest of the print (Source: najakwa via PrusaPrinters)

A level build plate shows a consistent first layer, resulting in nicely “squished” lines all the way through. On the other hand, here are a few common signs of a non-level bed:

  • Filament isn’t sticking to the build surface in all places
  • No filament is leaving the nozzle in some places
  • Filament height and width varies across the build surface
  • The gap between lines of filament varies across the build surface

Now that we know what to look for, let’s get into what you need to fix it!

Required Tools

Depending on your build surface, you might want to lay off the razor blades (Source: Printer Materials)

Here’s a good starting set of tools needed to maintain a level bed and nozzle gap:

  • Paper: You’ll want a piece of paper that you can comfortably hold and slide between the nozzle’s tip and the build plate. A piece of ordinary office paper cut down to size will work, but anything similar that’s thin and will hold its shape should also do the trick.
  • Screwdriver or hex key: Your 3D printer’s bed may require one of these tools to adjust screws on the bed (if it doesn’t have rotating knobs).
  • Heat-resistant gloves: Protection is important when you’re working near the nozzle. Some gloves like these ones from Rapicca, are useful.
  • A clean cotton cloth and a brass brush: A clean nozzle is a happy nozzle. A mini brush (or something similar) is nice to have.
  • A razor (or plastic) blade or a spatula: Scraping residue from the surface of your build plate is easy if you have something like the BuildTak spatula. Or, blades can work, but you want to be careful not to scratch your build plate.
  • Dish soap and a clean, dry cotton cloth: Easily remove dust and grime with these common household items.
  • Isopropyl alcohol: A staple for every 3D printer owner, IPA allows you to clean a build surface that’s permanently mounted to the 3D printer. Just check that the build surface can handle the cleaning agent.

Preparation

Cleaning your build plate is a good first step to getting a nice level (Source: MatterHackers)

With all your tools assembled, you’re ready to make some adjustments… almost! Before we start tackling the hardware, we need to make sure everything is clean.

Clean the Nozzle

First things first! If you have any residual plastic on the tip of the nozzle, your bed-to-nozzle gap will be off. Thankfully, the tip is easy to clean with a dry cotton cloth.

Heat the nozzle to the temperature the last-used material was printed at and wipe off the excess plastic. If that doesn’t do the trick, a brass brush may be used to carefully clean around the tip. Just be careful not to overdo it, otherwise the nozzle may be damaged by the hard brass bristles.

When working close to the hot end, be sure to observe proper safety practices like wearing heat-resistant gloves and using common sense.

Clean the Build Surface

As with the nozzle, your 3D printer’s bed surface should also be clean. For a glass build surface, we can mostly use a razor blade or a spatula to scrape off any large residue and debris. The blade will also work for other hard build surfaces, but be sure to not use it on a build plate that might be easily damaged, such as one with a PEI coating.

Once large debris is removed, we can proceed with washing the build plate. If it can be removed, cleaning it in the sink with ordinary dish soap and lukewarm water works quite well. For a non-removable build plate, you can use isopropyl alcohol on a paper towel or cloth. After that, dry it with a soft cloth.

It’s a good idea to not touch the clean build surface with your bare hands, as that can add oils from your skin. We don’t want any grease on the surface, as that can adversely affect bed adhesion. For different types of build surfaces, other techniques may apply, so be sure to check what you have to avoid damaging its surface.

Hot or Cold?

For the bed leveling process, it doesn’t matter if the bed and nozzle are hot or cold unless you plan to only print with one set of settings. In this case, heating up to those temperatures before leveling can help to ensure your level is exact (because materials will expand), but this isn’t strictly necessary.

Bed Leveling

It’s kind of a Goldilocks situation (Source: 3D Newb)

Manual 3D printer bed leveling can be a frustrating experience even for seasoned makers. However, as soon as you understand the basics of the process, you’ll easily master this useful skill.

Many 3D printers have automatic or semi-automatic bed leveling, but even in those cases, it can be a good idea to periodically do it manually (because automatic systems don’t actually level the bed). Also, if something is wrong with your first layer, you may be able to more easily find the faulty part or setting if you know what’s going on with the bed.

Step 1: Create Some Workspace

Most FDM 3D printer beds are mounted with four adjustable screws in the corners of the build plate. Adjust each screw a couple of turns to increase the distance between the nozzle and build plate. (If “touching up” a leveling job done not too long before, you may not need to do this.)

Step 2: Position the Printhead

Now you want to get the nozzle close to the build plate. To do this, simply home your print head using whatever method your printer or control software provides.

This will send the nozzle to what the machine considers to be position (0, 0, 0) in the build volume’s space. What’s important is that third 0, which represents the Z coordinate or height, because it’s at this height that your machine will print the first layer.

Lastly, disable (or unlock) the stepper motors so that you’re able to freely push the printhead within the XY-plane. Again, this should be an option provided by your printer’s firmware.

Step 3: Measure and Adjust

With a bit of patience, bed leveling can be easy (Source: wannamaker via Ultimaker)

You want to calibrate the 3D printer bed so that it’s as level as possible at all four corners and in the middle. In theory, the nozzle should just touch the build plate at these locations, and this is why we try to pass something thin between them – like a piece of paper. Reaching the point just before experiencing resistance while sliding the paper around ensures that the “gap” is correct and it’s consistent at all five locations.

Move the printhead to a corner of the bed and put your paper between the nozzle tip and the print bed. If there’s no resistance when dragging the paper back and forth between the nozzle and the bed, adjust the closest leveling screw to tighten the gap. Be careful not to put pressure on the 3D printer bed (for example with your hand), as this will push the bed down enough to make the gap bigger than it really is. Sliding your paper continually, keep adjusting the screw until you can feel a slight drag from the nozzle and 3D printer bed.

Repeat this same process on all remaining corners. When the corners are okay, move the print head to the middle of the build plate and check that the same resistance can be felt there. Readjust the screws if necessary.

Lastly, double-check each corner and the center again, as your adjustments may have affected other spots. If that’s the case, repeat the entire procedure until all five points are leveled.

Step 4: Inspect the First Layer

Before running a complete 3D print job, it’s a good idea to print only the first layer in order to verify successful bed leveling. If successful, the first layer should look more or less the same over the whole surface. If not, you may need to further adjust your level.

Adjusting the Nozzle Gap

The nozzle gap is crucial to getting the right “squish” on the first layer of your 3D print (Source: Lamin Kivelä via All3DP)

Although they’re often discussed together, it’s important to know that adjusting Z height isn’t typically something that’s done as often as bed leveling. Generally speaking, there are two ways to adjust Z height, and they’re done at different times.

The first way is to set it via firmware, making it something of a “fixed” value that’s usually only touched during printer calibration. The second way is to set it via your slicer (perhaps as “first layer height”), and this is something one might choose to adjust before a particular print job depending on the material, type of print, or type of bed.

Either way, you shouldn’t have to be adjusting the Z height in order to compensate for poor bed leveling. In theory, the firmware’s Z height should be properly set before bed leveling, so that, when your nozzle reaches its home position, (0, 0, 0), that third 0 is in the right place.

Too frequently relying on Z height to achieve the right gap between nozzle and print surface could result in you reaching an extreme (like the lowest possible Z height), which won’t allow for future adjustments.

Signs the nozzle gap is too small:

  • The first layer is barely visible or very thin
  • No filament extrudes onto the build plate
  • Filament gathers on the nozzle

Signs the nozzle gap is too large:

  • Filament doesn’t stick to the build surface
  • Filament comes out like spaghetti
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