13 Common 3D Benchy Problems, Causes & Fixes – Bambu3Design – 3D Printing & Design
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Bambu3Design Team<br>onJuly 5, 2026
13 Common 3D Benchy Problems, Causes & Fixes
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The 3D Benchy is one of the most popular test prints in the 3D printing world. At first glance, it looks like a small boat, but it is actually a smart torture test designed to reveal common printer problems.
A Benchy can help you check overhangs, bridging, holes, curved surfaces, first-layer quality, cooling, extrusion, dimensional accuracy, and motion control. This is why many makers use it after changing filament, adjusting slicer settings, upgrading hardware, or testing a new printer.
In this guide, you’ll learn the most common 3D Benchy defects, what causes them, and how to fix them.
What Is a 3D Benchy?
The 3D Benchy is a small benchmark boat designed to test the performance of FDM 3D printers. It includes several difficult features such as curved hull surfaces, unsupported holes, bridges, overhangs, fine details, and a chimney.
A standard Benchy is usually printed at 1:1 scale with a 0.4 mm nozzle, 0.2 mm layer height, around 10% infill, and moderate print speed. These baseline settings make it useful for comparing print quality between different machines and slicer profiles.
Do not use supports for Benchy. The point of the model is to reveal how well your printer handles difficult features on its own.
1. Stringing / Oozing
What it looks like
Thin hair-like strings appear between the cabin walls, chimney, door frame, or small gaps.
Common causes
Stringing usually happens when molten filament leaks from the nozzle during travel moves. The most common causes are poor retraction settings, nozzle temperature too high, wet filament, or slow travel speed.
How to fix it
Increase retraction distance or retraction speed slightly, lower the nozzle temperature by 5–10°C, dry your filament, and increase travel speed if your printer can handle it.
2. Over-Extrusion
What it looks like
The hull looks blobby, the cabin details are messy, and there may be extra plastic around corners or small features.
Common causes
Over-extrusion happens when the printer pushes out too much filament. This can be caused by an incorrect flow rate, wrong filament diameter, or poorly calibrated extruder steps.
How to fix it
Calibrate E-steps, check filament diameter in the slicer, reduce flow rate by small steps, and make sure your slicer profile matches the filament you are using.
3. Under-Extrusion
What it looks like
You may see gaps in the walls, weak layers, missing lines, or thin areas on the hull.
Common causes
Under-extrusion can come from a clogged nozzle, low nozzle temperature, incorrect E-steps, poor filament feeding, loose extruder tension, or a worn PTFE tube. Benchy’s hull is especially useful for spotting thin layers and inconsistent extrusion.
How to fix it
Clean the nozzle, raise nozzle temperature slightly, check extruder tension, calibrate E-steps, and make sure the filament path is smooth.
4. Warping
What it looks like
The bottom corners of Benchy lift from the bed, and the base may look distorted.
Common causes
Warping usually happens when the first layer does not stick well or when the print cools too quickly. ABS, ASA, and Nylon are more likely to warp than PLA.
How to fix it
Clean the build plate, increase bed temperature, use a brim if needed, reduce drafts, and use an enclosure for materials that shrink more during cooling.
5. Layer Shifting
What it looks like
The cabin, chimney, or hull appears shifted to one side. The model may look like it has been pushed sideways.
Common causes
Layer shifting often comes from loose belts, pulley issues, mechanical obstruction, stepper driver overheating, or print speed that is too high. Benchy can reveal both horizontal shifts and smaller vertical inconsistencies.
How to fix it
Tighten belts, check pulleys, make sure the print head moves smoothly, reduce speed and acceleration, and improve cooling around electronics if needed.
6. Poor Bridging
What it looks like
The filament sags under the roof of the cabin or across window openings.
Common causes
Poor bridging is usually caused by insufficient part cooling, print temperature too high, or bridge speed that is not tuned correctly.
How to fix it
Increase part cooling fan speed, lower nozzle temperature slightly, reduce bridge speed, and make sure the cooling duct points correctly at the printed part.
7. Overhang Issues
What it looks like
Edges under the cabin roof, bow, or overhanging areas droop downward.
Common causes
Overhang problems happen when the plastic does not cool fast enough before the next layer is added. High temperature, low fan speed, and fast printing can make this worse.
How to fix it
Improve part cooling, reduce print temperature, slow down overhang speed, and use a lower layer height if...