This article provides tips and best practices to help you avoid filament tangling. Proper handling and storage of filaments can prevent most tangling issues. Why Filaments Tangle. Filament tangling usually happens for one of two reasons:. How to Solv
Stringing, also known as oozing or hairy prints, occurs when small strands of filament are left behind during printing. This happens when plastic oozes out of the nozzle when it shouldn't, leaving a trail along the extruder's movement path. This arti
Check Temperature Settings. Ensure you are using the recommended plate and temperature settings to prevent excessive bed adhesion. Lower the temperature of the bed slightly if needed. Allow the Plate to Cool Down. Wait until the build plate has coole
Nozzle clogging is a common issue that 3D printer users frequently encounter. If you have under-extrusion inconsistent extrusion, or even no extrusion, it’s likely that your nozzle is clogged. Also, the motor makes clicking sounds as it struggles to
This guide addresses the issue when your 3D printer is not extruding filament at the very beginning of a print. Let’s walk through some common solutions to get your printer back to working condition. Check the Basics. Before diving into more complex
One of the most common issues in 3D printing is the first layer not adhering properly to the build platform. This can lead to prints failing early in the process, causing frustration and wasted material. Ensuring the first layer sticks well is crucia
The drive gear with sharp teeth is how the printer controls the movement of filament. When the filament is unable to move according to the direction and speed of the gear, grinding occurs. The filament gets chewed up, small filament shavings will be
Ringing, also known as ghosting or rippling, is a common issue in 3D printing where wavy patterns appear on the surface of printed objects. This defect is typically caused by vibrations or wobbling of the printer during sudden direction changes, such
Over-extrusion in 3D printing occurs when the printer releases more filament than needed, leading to excess material that can make prints look messy, reduce detail, and cause issues like blobs, zits, and even structural problems. Please follow the in
Under-extrusion in 3D printing occurs when the printer does not supply enough filament, leading to gaps, weak structural integrity, and an overall decrease in print quality. Please follow the instructions below to fix this:. Increase Flow Rate. If un
Warping in 3D printing occurs when the edges of a print curl up and detach from the build platform. This happens because the material cools and contracts unevenly, causing the layers to deform and lift. You can spot warping by looking for edges that
Bridging in 3D printing is the ability of a printer to span a gap between two points without any support from below. Common signs of poor bridging include sagging or drooping strands across gaps, stringy or incomplete fill on the underside of bridges
This article provides essential information on the importance of drying filament before use, especially for moisture-sensitive materials. It outlines the signs of moisture-related issues and offers drying recommendations to help ensure optimal 3D pri
PETG-based filaments including Rock PETG are sensitive to moisture, so we recommend drying them at 65°C (149°F) for 7 hours. Avoid prolonged drying times, as excessive heat can cause the filament to become brittle and unsuitable for printing. For sto
If you experience warping or poor bed adhesion with PETG, try increasing the bed temperature to around 70-80°C (158-176°F) and use a suitable bed surface like glass or PEI, possibly applying a light adhesive like glue stick or hairspray. Ensure the i
Use the cooling fan to improve surface quality by reducing stringing, but be aware that it may weaken layer adhesion. Conversely, not using a fan can enhance layer adhesion and strength. Whatever you choose, the initial layer should have minimal cool
The glossiness of models printed with Silk material can be controlled by adjusting the printing temperature and speed. To achieve a glossier finish, it is recommended to use higher printing temperatures and/or lower printing speeds. Conversely, for a
Glow PLA typically prints well within the same temperature range as Easy PLA or regular PLA, usually around 190°C to 220°C. It can be more sensitive to temperature changes, so slight adjustments may be needed. It may be beneficial to print at slightl
To improve adhesion and to reduce warping, the first several layers should be printed at slower speeds of 50-150mm/s. Subsequent layers can be printed at speeds of 250-600mm/s on high-speed printers.
Turbo PLA prints best at nozzle temperatures between 200°C and 220°C. Higher speeds require hotter temperatures, while slower speeds benefit from lower temperatures. Ensure your printer enclosure is well-ventilated and cooled to reduce heat creep.
For best adhesion, use a heated glass or textured build plate at 35°C-60°C. Turbo PLA sticks firmly to PEI sheets; removing parts may require substantial force. Consider lowering bed temperature or using a thin glue stick layer to lessen adhesion.
Turbo PLA may not bond well with other PLA materials. Therefore, if you plan to do multi-color printing, we recommend avoiding the mixing of Turbo PLA with other materials to ensure optimal printing results and product quality.
Yes, ABS / ASA is sensitive to moisture, so we recommend drying ABS / ASA under 75°C(167°F) for 7 hours. Avoid extended drying times, as this can lead to the filament becoming brittle and unsuitable for printing. For storage, keep it in a sealed cont
Yes, Easy Nylon is sensitive to moisture, so we recommend drying under 95°C (203°F) for 7 hours. Avoid extended drying times, as this can lead to the filament becoming brittle and unsuitable for printing. For storage, keep it in a sealed container wi
Yes, annealing is recommended to enhance the mechanical and thermal properties of the printed part. The printed part will not reach full crystallization after the printing process, so an additional step is required: anneal at 80°C(176°F) for 6 hours
Yes, it is required to use an enclosed 3D printer for PC Professional, as larger prints may warp if not enclosed.
Yes, PC is sensitive to moisture, so we recommend drying under 75°C (167°F) for 7 hours. Avoid extended drying times, as this can lead to the filament becoming brittle and unsuitable for printing. For storage, keep it in a sealed container with desic
Yes, Easy Nylon is sensitive to moisture, so we recommend drying under 95°C (203°F) for 7 hours. Avoid extended drying times, as this can lead to the filament becoming brittle and unsuitable for printing. For storage, keep it in a sealed container wi
While annealing is not strictly required for PC Professional, it is highly recommended as it can help eliminate internal stresses that may form during the printing process. These internal stresses, if left untreated, can lead to warping, dimensional
Yes, TPU is sensitive to humidity. It is recommended to dry TPU-based filaments at 70°C (158°F) for 7 hours to ensure optimal print quality. Avoid extended drying times, as this can lead to the filament becoming brittle and unsuitable for printing. F
Blobs and zits are common imperfections that can detract from the quality of your prints. They typically appear at points where the extruder starts or stops depositing material. Understanding what these imperfections are and how to address them is cr
When you're 3D printing, one of the common issues that can arise is filament sticking to the nozzle. This can lead to poor print quality, clogs, and increased frustration. Understanding why this happens and how to resolve it can save you time and imp
In 3D printing, gloss refers to the smoothness and shininess of a surface. Two critical factors that influence gloss are temperature and print speed. Here’s a simple explanation of how these factors affect glossiness and tips for maintaining consiste
If you are using an Automated Material System (AMS) with your 3D printer, you may wonder whether you can use Overture filament. The answer is yes, but there are some important details to keep in mind. Overture filament can indeed be printed using the
Overhangs are a common challenge in 3D printing, as they occur when sections of a model extend outward without sufficient support from underneath. Poorly executed overhangs can lead to sagging, drooping, or printing failures. However, several techniq
Layer splitting occurs when layers do not bond properly. Here are some straightforward solutions to help prevent it.
One of the most critical factors influencing the surface quality is the layer height setting. Layer height determines the thickness of each printed layer and directly impacts the final finish of your model. A finer layer height creates more layers, w
In 3D printing, seams are visible lines on the model’s surface caused by the printer’s nozzle switching the starting point of each layer. These seams can detract from the model’s appearance and structural integrity. To effectively minimize seams, con