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18 posts tagged with "3D Printer Failure"

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Biqu Huraken - Klipper Remote Access and AI

Β· 11 min read

Introduction​

The world of 3D printing has evolved, and the Biqu Huraken stands at the forefront of innovation. In this guide, we will explore the Biqu Huraken 3D printer and its cutting-edge capabilities. Notably, we'll delve into the exciting possibilities of enabling remote access and AI monitoring through the integration of Obico.

Biqu Huraken - Klipper Remote Access and AI

Introduction to Biqu Huraken​

The Biqu Huraken is not your ordinary 3D printer. It's a state-of-the-art machine that pushes the boundaries of what's possible in the realm of 3D printing. With its exceptional features and advanced technology, it's a must-have for both enthusiasts and professionals.

Elegoo Neptune 4 Series - Klipper Remote Access

Β· 16 min read

Elegoo Neptune 4 Series

The Rise of Elegoo in the FDM World​

Elegoo, a name previously synonymous with high-quality resin printers, has embarked on a new journey in the realm of FDM printing with its Neptune 4 series. The world of Fused Deposition Modeling (FDM) printing has been evolving rapidly, and it’s not just the technology giants who are leading this transformation. Niche manufacturers like Elegoo have stepped into the arena, bringing innovative solutions and captivating designs. With the Neptune 4 series, Elegoo has successfully established a foothold, striking a balance between cost-efficiency, performance, and user-friendliness. It's no wonder that enthusiasts and professionals alike are keeping a close eye on Elegoo's latest offerings.

Overview of Klipper's Integration with 3D Printers​

Klipper, an open-source firmware solution, has revolutionized the way 3D printers operate. Rather than relying solely on the limited computational power of a printer's onboard microcontroller, Klipper collaborates with more powerful devices like Raspberry Pi to manage printer operations. The result? Enhanced performance, speed, and precision. The union of Klipper with Elegoo's Neptune 4 series is a testament to the future of 3D printing, offering users an enhanced printing experience. By leveraging the prowess of Klipper, users can enjoy faster print speeds without compromising on accuracy. Moreover, with the advent of remote access solutions like Obico, the possibilities of what one can achieve with Klipper and the Neptune 4 series are truly boundless. Stay tuned as we delve deeper into the intricacies of remote access and explore the full potential of the Elegoo Neptune 4 series powered by Klipper and Obico.

Nozzle Scraping Bed Surface

Β· 4 min read

Nozzle Scraping Bed Surface​

What Is It?​

Inaccurate bed leveling, low initial layer height, or incorrect Z-offset settings can cause your printer's nozzle to scrape against the printing bed. It might damage the nozzle and the print bed and restrict the filament from flowing out of the nozzle.

If left unchecked for a while, it can build up pressure in the hot end and cause the extruder motor to skip steps. Nozzle scraping is relatively minor but one of the most common issues faced by beginners and new 3D printer users.

Blobs and Zits

Β· 3 min read

Blobs or Zits​

What Is It?​

Blobs or Zits are the tiny dots on your print's surface and directly affect its overall quality and appearance. These are often the result of incorrect retraction settings or high printing temperature and negatively affect the surface finish of your 3D printed part.

Sometimes, you can easily remove them with sanding, but big blobs can be challenging to remove and may leave an impression on your parts. For this reason, it's best to tune your printer to not create them in the first place rather than try to remove them through post-processing.

Broken Filament

Β· 4 min read

Broken Filament​

What Is It?​

The filament is a relatively fine plastic thread, which can break easily under certain conditions. If your filament breaks mid-way during a print, it will cause a print failure leading to a loss of print time and effort.

Filament usually breaks due to poor quality control, high humidity, or extreme tension in the filament path. These conditions are essential to consider if you're planning to print large-sized objects or want to use your printer for batch 3D printing.

Filament Stops Extruding Mid-Print

Β· 4 min read

Filament Stops Extruding Mid-Print​

What Is It?​

Your 3D printer can stop extruding filament mid-way during printing, leading to a failed print and losing printing time. The most likely and apparent reason might be your printer running out of filament material.

But, in some cases, nozzle clogs and defective extruders too can be a potential issue.

First Layer Issues

Β· 5 min read

First Layer Issues​

What Is It?​

First layer issues reduce the chances of a successful print and are often the cause behind several failed 3D prints. Some of the significant and most common first layer problems are - prints not sticking to the bed surface, the first layer too rough, the nozzle not extruding filament or holes and lines in the bottom of your prints.

These problems can either affect the quality of your prints or cause them to fail, leading to loss of filament and printing times. Therefore, it's crucial to eliminate these issues and ensure a smooth and even initial layer.

Gaps in Print Surfaces

Β· 4 min read

Gaps in Print surfaces​

What Is It?​

Often 3D prints can have small visible gaps on their top surfaces, outer walls, and between the infill structure and the inner walls. These cavities ruin the appearance of your 3D-printed model and might also affect its structural integrity. Often, the cause behind gaps in your 3D prints is related to slicer settings, and you can quickly resolve these gaps by fine-tuning specific settings.

Inferior Surface Quality Above Supports

Β· 3 min read

Inferior Surface Quality above Supports​

What Is It?​

Supports are essential to provide a base for the overhangs in your 3D prints. But incorrect support settings can affect your print's quality and appearance. If the top of your support is too close to the print's surface, it might leave marks and blobs. Whereas, if there's too much gap between the support and the print, you will encounter filament drooling and poor overhangs.

In an ideal scenario, the support should easily detach from the print's surface without leaving any marks. Moreover, the supported area of the print shouldn't indicate any filament drooling or signs of a support structure underneath it.

Inferior Surface Quality Underneath Supports

Β· 3 min read

Inferior Surface Quality underneath Supports​

What Is It?​

With extreme overhangs, you need to use support structures that use the print's surface as their base. In such cases, the support pillars can adhere firmly to your print, affecting your part's surface quality. Less distance between the support base and the print can make removing the supports a challenge.

Popular slicers such as Cura and PrusaSlicer circumvent this issue using Tree Supportstructures. Tree supports have minimal contact with your 3D prints and help you achieve better-looking parts even with large overhangs.

Innacurate Dimensions

Β· 2 min read

Inaccurate Dimensions​

What Is It?​

Incorrect printer calibration can lead to dimensional inaccuracies in your final 3D printed parts. An inaccurate part will not fit well with other elements and lead to issues during the final assembly of your printed design. It's not an issue with 3D-printed showpieces or aesthetic parts but will cause significant problems with complex assemblies or functional designs.

For simplicity, we'll broadly classify these inaccuracies as positive and negative dimensional errors. If your print has a positive error, it indicates the observed measurement is more than the designed value. If your print's observed measurement is less than the design value, it indicates a negative print error.

Layer Shifting

Β· 7 min read

Layer Shifting​

What Is It?​

Layer shifting is one of the most undesirable problems in 3D printing, and there's no way to recover your prints from this issue. A layer shift is unpredictable, not easy to diagnose, and leads to a print failure. Layer shifts are more likely to occur during long printing jobs due to the continuous strain on the printer's mechanical and electrical components.

The best way to prevent layer shifting is to perform periodic maintenance of your printer and ensure that each component performs optimally.

Alternatively, if your prints fail due to the layer shifts, you can use Obico to quickly catch the failed prints and stop it. The Obico software offers you complete remote control of your 3D printer, and helps you save on filament and printing time.

Poor Quality Bridges

Β· 5 min read

Poor Quality Bridges​

What Is It?​

Long bridge segments in your 3D prints can sag a little due to the lack of supports or high printing temperature. In these cases, the filament lines drool down and spoil the appearance of your 3D prints. Excessive sagging ruins the bridge's structural integrity and might even cause interference issues with mating components.

Prints Difficult to Remove From Bed

Β· 3 min read

Prints Difficult to Remove From Bed​

What Is It?​

A low layer height, improper bed level, or extra bed adhesion can cause the prints to stick firmly to the print bed. Certain materials like PETG stick too well with glass beds and hairspray. In many cases, the prints either broke halfway or had a piece of bed surface stuck to their bottom layers.

To avoid this issue, you must calibrate your first layer height and use the appropriate printing surface per your material. The key is to strike a perfect balance such that your prints stick well enough not to get knocked off quickly but not too firm that it becomes difficult to remove.

Stringing Issues

Β· 8 min read

Stringing Issues​

What Is It?​

Stringing is denoted as the oozing of filament from the nozzle when the print head travels between two points on your 3D model. It's caused due to excess filament oozing out of the nozzle due to improper retraction settings or high filament temperature.

Stringing issues result in extra efforts during the post-processing to clean your prints and might still leave small blobs or dots on the print's surface. Although it might not affect the print's structural integrity in severe cases, it impacts the print quality and is an undesirable attribute for printing aesthetic or showpiece items.

Under-Extrusion

Β· 9 min read

Under extrusion​

What Is It?​

Under extrusion is caused when there's an interruption in your filament flow. Gaps in your layers, irregular layer lines, or webbed layers in your 3D model indicate an inadequate filament flow to the nozzle. It's one of the most common printing issues and is prevalent with Bowden drive extruders due to the long path of the filament.

Warping and Splitting Layers

Β· 5 min read

Warping and Split Layers​

What Is It?​

Warping or curling occurs mainly on the initial few layers of your part, leading to a failed print, poor print quality, or a dimensionally inaccurate part. Whereas layer splitting usually takes place in the middle of the top portion of your printed pieces. Split layers directly affect your part's structural integrity, resulting in an unappealing-looking 3D print.

The primary reasons behind both these problems are the printing temperature and ambient temperature of your 3D print. If there's a significant difference between your hot and bed temperature and the surrounding environment, you will experience warping and layer splitting in your 3D-printed parts.

Octolapse: The Best OctoPrint Plugin for Time-lapses

Β· 5 min read

OctoPrint is the most popular software for monitoring and controlling your 3D printer from another room. It's expansive list of plugins takes it to the next level. In this blog post, I will discuss my two favorite OctoPrint plugins, Octolapse and The Spaghetti Detective. As a content creator myself, I will highlight some of the benefits these plugins provide for creating content.

What is Octolapse?​

For those of you that do not know, Octolapse is a plugin for OctoPrint that was developed by FormerLurker. It is an easy to install plugin that provides seemingly magic time-lapses of your 3D prints. You can configure the time-lapses to work in a bunch of different ways. Some configurations make it look like the 3D print is growing out of the build plate, while others provide a satisfying animation effect. You can fully configure many settings to get the exact result you are going for (depending on your camera setup).

OctoPrint_interface

OctoPrint tab (Source: Octolapse page)