If 3D printer projects look weak or appear messy, the problem usually lies in how a 3D printer extrudes filament or how the first few layers bond to the build plate. From underextrusion that leaves hollow spaces in walls to loose belts that cause layers to shift during printing, one small oversight can ruin a user’s entire project. By understanding common issues that cause certain outages, users can fine-tune a printer’s settings to ensure that every print runs as expected. Levelling the bed, the correct nozzle temperature for the filament, and the right slicing software settings can solve the problems that plague this difficult 3D printing project.
Poor bed adhesion
A simple solution is to use isopropyl alcohol to remove oils from previous projects (and hands) as well as dust that prevents filaments from bonding. If the surface is still too smooth, applying a thin layer of glue stick or specialist 3D adhesive can provide the right level of adhesion. It’s also a good idea to check the Z offset to make sure the printer nozzle is set at the correct height; if it’s too high, the filament will just slide along the build plate instead of crashing into it for a solid bond. Another simple solution is to reduce the printing speed of the first layer to give the plastic more time to settle and adhere properly before the 3D printer speeds up for the rest of the project.
Underextrusion
You can resolve these issues by increasing the temperature of the 3D printer’s hot end in 5-degree increments (Celsius) and extruding the filament until the hot plastic flows easily. When you find that sweet spot, it’s the right temperature to allow the layers to bond properly. Next, check the extruder’s feed gear: if it’s dirty or has removed filament, it won’t be able to grip it properly to feed the printer nozzle. Regular maintenance, such as cleaning the printer nozzle with a brass brush, performing a cold pull, or even purchasing a special cleaning filament to remove internal debris, is always a good practice. Simple maintenance like this should correct underextrusion and keep a 3D printer head in good condition.
Messy, low-density filling
For solid construction, choose a sturdier infill pattern like a honeycomb, grid, or gyroid, which provides better multidirectional strength than simple lines. Users can also improve stability by increasing the number of wall perimeters (also called shells) rather than simply increasing infill percentages. Three or more walls will significantly increase the strength and overall strength of the room. If the fill still fails, check the slicing software to make sure the “fill before walls” option is turned off, which prevents an internal structure from pushing against the exterior walls of a project and creating artifacts. Following these tips should help users successfully print the most efficient infill instead of opting for solid printing, which is a great way to waste filament.
Loose belts and worn parts
It’s a good idea to regularly check and tighten the belts until they have a firm tension similar to that of a guitar string. Also check the adjustment screws on the engine pulley systems, as a slipping pulley can easily cause alignment problems. Placing a 3D printer on a solid, vibration-free surface and lubricating the rails and bearings will also reduce friction and vibration, allowing the machine to move smoothly and precisely. If the motor drivers overheat, they may shut down temporarily and cause shifting. If this happens, make sure there is sufficient airflow around the electronics of the 3D printer, although most modern 3D printers take this into account.
Humidity and environmental variables
Using an enclosure or purchasing a printer with an enclosed design are great ways to control the ambient temperature of the printing environment and protect prints from sudden drafts. The enclosures retain trapped heat around the part, allowing it to cool slowly and reducing internal stresses that cause warping. To deal with humidity, users can purchase and store their filament in bags sealed with a desiccant or use a dedicated dry box. If a filament spool is already fragile or makes clicking noises when printing, investing in a filament dryer to remove moisture content from PLA, ABS and more is a wise investment for future projects.
