3D Print Layer Separation: 8 Tips to Avoid Delamination



 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Sticking Together

There are a few ways to prevent 3D print layer separation. Read on for our top tips to avoid delamination in your prints!

 

Layer separation, sometimes referred to as delamination, is a 3D printing issue involving poor layer-to-layer adhesion. It’s a similar problem to poor first layer adhesion, which is when you have a weak bond between the first layer of your print and the build surface. Layer separation concerns the bonds between every subsequent layer of the print.

While poor first layer adhesion can result in a part with a warped base, layer separation can yield drastically flawed prints with visible cracks between layers. Delamination occurs due to subpar layer bonds, when a layer doesn’t adequately stick to the one underneath. This can happen for a few reasons, including too-low temperatures, over-cooling, a large layer height, an unclean hot end, and more.

In this article, we’ll be going over a few different potential causes and solutions to help prevent delamination from (literally) popping up in your 3D prints.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #1: Clean the Hot End

Cleaning your printer's hot end and nozzle will allow for proper extrusion
Cleaning your printer's hot end and nozzle will allow for proper extrusion (Source: Airwolf3D)

 

After periods of extended use, your hot end can get a little dirty and possibly even partially (or fully) clogged. A partial (or full) clog significantly impacts your printer’s extrusion. In particular, a reduction in material extruded can reduce the bond between layers, causing issues like layer separation.

Our first tip, then, is to clean your printer’s hot end every so often to ensure that extrusion is always free from clogs and jams. To do this, simply heat your hot end to your usual printing temperature, and (with a metal pick of some sort) remove any build-up from your hot end. Additionally, don’t forget to use a needle to clean your nozzle. And if you’re thinking it isn’t in tip-top shape, replacements are cheap and easy to install (assuming you’re not using something special).

Because cleaning your hot end and the nozzle isn’t that much of a hassle, you may want to do this as a preventative measure every once in a while, even if you’re not seeing layer separation. This will reduce the likelihood of other print quality issues occurring later on.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #2: Lower Print Speed

Layer separation can occur if your print speed is too high and extrusion is affected
Layer separation can occur if your print speed is too high and extrusion is affected (Source: Ski52 vis SoliForum)

 

Our second tip is to lower the print speed, which is a catch-all solution for many issues but will also effectively increase your extrusion during prints.

Especially if you like to print in a hurry and have bumped your speed settings beyond the filament manufacturer’s recommendations, this could be the source of any extrusion issues you’re experiencing. Although a high print speed technically means filament is flowing through the nozzle more quickly, if your hot end temperature isn’t high enough to keep up, you’ll have extrusion issues and possible layer separation. Slowing down the print speed gives the hot end more time for the filament to melt and layers to fuse.

When adjusting, you should lower your print speed in increments of around 5-10 mm/s, depending on your material, until you’ve lowered it to about 50% of the original value. If you’re still seeing layer separation, it most likely isn’t the speed that’s the cause.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #3: Raise Hot End Temperature

Raising your hot end temperature fixes under-extrusion, which can help solve layer separation
Raising the hot end temperature can make filament flow better (Source: Gregory_D64 via Reddit)

 

Our third tip for solving delamination is raising the hot end temperature, which should increase extrusion for your print. When the hot end temperature is too low, filament doesn’t have enough time to melt, causing issues like under-extrusion. However, the hot end temperature also influences how well the individual layers of a print bond during and after the printing process.

It’s no question that a higher nozzle temperature yields stronger parts, and this claim is proved repeatedly in tests like the ones performed by CNC Kitchen. A hotter nozzle produces more filament flow, and this extra material increases the bond between layers. Additionally, the layers of filament that make up a print require heat to fuse, so naturally, providing more heat will aid this process.

If you’re already experiencing under-extrusion or a similar issue, increasing the temperature is a good place to start. When raising your hot end temperature to improve layer bonds and solve layer delamination, try first increasing your temperature by around 10 °C.

If the issue persists, continue to increase your nozzle temperature in 5-degree intervals. Try doing this until the problem goes away or until you’ve reached the temperature capability of your printer or exceeded the temperature range of your filament. If this happens and you’re still seeing delamination, your hot end temperature probably isn’t the reason for your layer separation issues.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #4: Increase Flow Rate

Raising your flow rate too much can cause over-extrusion
Raising your flow rate too much can cause over-extrusion (Source: donnysaysvacuum via Reddit)

 

Related to the previous two solutions, our fourth tip is to increase the flow rate (sometimes called extrusion multiplier) in your 3D slicer. Before doing this, though, make sure to correctly set the E-steps on your printer, as flow and E-steps go hand-in-hand.

The flow rate determines how quickly the extruder feeds filament into the hot end (for a given print speed). Changing the flow rate is a common way to solve extrusion issues like over- or under-extrusion and can also solve layer separation. Increasing the flow rate increases the amount of filament pushed through the nozzle, and as we said previously, more material extruded means more opportunity for layers to bond.

If you’ve noticed under-extrusion in previous prints, adjusting the flow rate could be a good place to start (after raising the temperature) to eliminate layer separation. When increasing your flow rate, do so in 5% increments until either the problem goes away or you start to experience over-extrusion. If that happens, it means you’ve gone too far and flow rate likely isn’t your delamination culprit.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #5: Adjust Part Cooling

Too much cooling can be another cause of delamination
Too much cooling can be another cause of delamination (Source: Anders Strand via Norwegian Creations)

Our fifth tip is to adjust, usually by lowering, the cooling for your print. Similar to how excessive airflow can cause warping on the first layer of parts, too much cooling can separate the layers of a print. As we know, heat is required to fuse layers, so layers have a harder time bonding if they’re cooled too quickly.

To fix this problem, lower your part-cooling fan speed in 10% increments until the issue disappears or you start to experience other printing errors. Don’t be afraid of going all the way down to 0% for your part-cooling fan speed, especially for materials sensitive to cooling like ABSSome users have also noted that using a fan with PETG, in particular, can cause weak layer-to-layer adhesion.

While airflow is primarily produced from your printer’s part-cooling fan, it can also come from unintentional drafts. To test if this is the cause of your layer separation, you can print a test part with a low fan speed while keeping your printer in a controlled environment, like a closed room or (temporarily) in a trash bag to block airflow. If you don’t see layer separation, then over-cooling is the likely cause of your layer separation, and you should build or purchase an enclosure for your printer.

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #6: Decrease Layer Height

Using a smaller layer height further pushes layers together to bond
Using a smaller layer height further pushes layers together to bond (Source: fntsmn via Reddit)

 

Some sources (like Simplify3D) claim that a large enough layer height can contribute to layer delamination in prints, so our sixth tip is to lower the layer height setting in your slicer. Layer height is exactly what it sounds like, but you can also think of it as the distance up the Z-axis the printhead shifts before starting a new layer.

Layer height is typically based on your nozzle diameter, and a common layer height for a 0.4-mm-diameter nozzle is 0.2 mm. The smaller the layer height, the more detail your printer can achieve; the larger this value, the stronger parts will be. If the layer height is set too high, the individual layers won’t be close enough to bond effectively, potentially causing delamination.

If you’re using a standard 0.4-mm nozzle with a layer height above 0.2 mm and are experiencing layer separation, try reverting to a 0.2-mm layer height. If a 0.2-mm layer height isn’t working either, you may want to try going even lower. However, if a layer height as low as 0.16 mm isn’t working, then this probably isn’t the cause of your delamination.

 

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #7: Replace (or Dry) Filament

Dry filament will produce significantly higher-quality prints than wet filaments and can prevent layer separation
Dry filament will produce significantly higher-quality prints than wet filaments and can prevent layer separation (Source: Hydra Research)

 

Filaments tend to lose their quality when exposed to moisture, so our next tip is to try changing or drying your filament. Once a filament absorbs moisture, the material degrades and, as a result, is more difficult to print and issues like layer delamination are more prone to occur.

More hygroscopic materials, like TPU, will undergo this process faster than others. If you’re using something particularly hygroscopic or see evidence that your filament is wet (based on the texture of your prints), you may want to try a print with a different spool of filament before moving on to the the final tip.

Using a dry filament can help prevent layer delamination and other quality issues in prints, and you can do this by either using a new spool or drying your current one. Once you dry your filament, to keep it in good condition, we recommend storing it in an air-tight container to prevent moisture from getting in.

 

 

3D PRINT LAYER SEPARATION: HOW TO AVOID DELAMINATION

Tip #8: Use a Wider Nozzle

A wider nozzle can fix layer delamination because there's more to stick to!
A wider nozzle can fix layer delamination because there's more to stick to! (Source: Andrew Sink via 3D With Us)

 

Lastly, if all else fails, using a nozzle with a wider diameter could help solve your layer delamination issues. Surprisingly, your nozzle diameter can influence the layer-to-layer adhesion in prints, and to some degree, the larger the nozzle diameter, the better the adhesion. A larger-diameter nozzle will lay out wider lines of melted filament, increasing the surface area for the next layer to bond to. Accordingly, if you increase the layer height, there will also be fewer opportunities for layers to separate because it will take fewer layers to create the same part.

Most 3D printers use a 0.4-mm-diameter nozzle as standard, so you may want to switch to a 0.5-mm or even 0.6-mm nozzle to try this solution. While this fix can work, we recommend you try using the other steps first to avoid a potentially unnecessary purchase. (Relying on a wider nozzle will also affect print precision.) Finally, if you increase your nozzle diameter, don’t forget to adjust your nozzle temperature and flow rate to compensate for the increase in extrusion.

 

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