Poor Layer Adhesion

The part peels apart along layer lines under stress. Sometimes it separates during printing itself; sometimes the failure only appears when you try to use the part.

Distinguish From Other Problems

Poor adhesion looks different from delamination cracking. Run your thumbnail along the layer lines: if you feel distinct ridges with gaps between them, it’s adhesion failure. If the surface looks normal but the part splits easily, it’s also adhesion — but the visual test isn’t enough; snap a test piece and look at the fracture surface. A good fracture pulls material across layer lines (rough break). A bad fracture is a clean horizontal plane (layers peeling, not breaking).

Layer separation (visible horizontal gaps mid-print) is a different symptom — see the layer-separation guide.

Primary Cause: Temperature

Layer adhesion is primarily a thermal problem. Each new layer needs to briefly remelt the surface of the layer below it. If the material cools too fast — from too-aggressive fan cooling, low nozzle temp, high speed, or cold ambient — the bond is weak.

Fix sequence:

1. Raise nozzle temperature 10°C. This has the largest impact. For ABS printing at 240°C, try 250°C. For PLA at 200°C, try 210°C. Don’t exceed material limits, but most published “maximums” are conservative.

2. Reduce fan speed. For ABS/ASA: fan off completely, or 15% maximum. For PLA: 50–60% instead of 100%. Fan is the enemy of layer bonding — use only enough to prevent overhangs sagging.

3. Reduce print speed by 25%. Slower movement means the nozzle spends more time over each point, delivering more heat. Speed reduction helps even when temperature is already at the upper limit.

4. Add an enclosure. At 18°C ambient (winter room), ABS delaminates because the chamber never heats up. An enclosure holding 40°C ambient makes a larger difference than any slicer setting.

Layer Height vs. Nozzle Diameter

Layer height above 75% of nozzle diameter creates weak bonds because the bead isn’t being compressed into the layer below. At 0.4mm nozzle: maximum effective layer height is 0.3mm. At 0.6mm nozzle: 0.45mm max. Beyond these limits, layer adhesion drops sharply regardless of temperature.

Wet Filament

Moisture in the filament creates steam bubbles at the layer interface, leaving micro-voids that prevent bonding. Signs: popping or crackling sounds during printing, rough surface texture, inconsistent width of extrusion. Dry the filament (PLA 45°C/4h, PETG 65°C/6h, Nylon 80°C/12h) and test immediately.

When Temperature Fixes Don’t Work

If raising temperature past 15°C above normal doesn’t improve adhesion, the problem is mechanical — likely under-extrusion. Not enough material is being deposited per layer to create adequate contact area. Fix under-extrusion first.