Frequently Asked Questions
General FAQs
What are the recommended print settings for your filament?
We provide recommended print settings for each filament type we offer. These settings include nozzle temperature, bed temperature, print speed, and cooling settings. Refer to our product descriptions or packaging for specific details.
Is your filament compatible with my 3D printer?
Our filament is designed to be compatible with a wide range of 3D printers. However, it’s always a good idea to check if your printer supports the filament type and diameter you intend to use.
How should I store my filament?
To maintain filament quality, store it in a dry and cool place, preferably in a reusable sealed bag with desiccant that comes with 3DFly Filaments. Moisture can negatively affect print quality and filament performance.
Do you offer bulk or wholesale discounts?
Yes, we offer bulk and wholesale discounts for customers ordering large quantities of filament. Please contact our sales team for more information. call +91 89800 05808
Will order dispatch same day?
Order placed before 10:00AM can be dispatched same day,
What is the difference between PLA and ABS filaments?
PLA is a biodegradable filament made from renewable resources, while ABS is a petroleum-based filament. PLA is easier to print with and gives a glossy finish, while ABS is stronger and more flexible.
What is the shelf life of filament?
Filament generally has a long shelf life if stored properly. However, it is recommended to use it within one to two years of purchase to ensure optimal print quality.
Issues During 3D Printing
Why is my print warping or lifting at the corners?
Warping or lifting at the corners of a print is often caused by inadequate bed adhesion or insufficient bed leveling. Ensure that your print bed is clean and properly leveled, and consider using adhesion aids like a heated bed, bed adhesives, or a brim/raft.
What causes stringing or oozing between printed parts?
Stringing or oozing occurs when the nozzle continues to extrude filament while moving between different parts of a print. To minimize this, try adjusting retraction settings in your slicer software and ensure the print temperature is suitable for the filament type.
Why are there gaps or under-extrusion in my print layers?
Gaps or under-extrusion in print layers can result from issues such as a clogged nozzle, improper filament diameter settings, or insufficient filament tension. Clear the nozzle, check filament settings, and ensure proper filament feeding.
What causes layer shifting or misalignment in my prints?
Layer shifting or misalignment can occur if the printer’s belts are loose, the stepper motors are skipping steps, or the print head encounters an obstruction. Check the tension of the belts, ensure smooth movement, and verify that the print area is clear of any obstacles.
Why do my prints have visible lines or banding?
Visible lines or banding can be caused by uneven movement of the print head, incorrect acceleration or jerk settings, or insufficient layer cooling. Adjust the print head movement, optimize acceleration settings, and improve cooling for better results.
What causes overhangs or bridges to sag or fail?
Overhangs or bridges may sag or fail due to insufficient cooling, improper support settings, or excessive print speed. Use support structures as needed, increase cooling fan speed, and consider slowing down the print speed for better overhangs and bridges.
Why are there blobs or zits on the surface of my print?
Blobs or zits can occur due to over-extrusion, incorrect retraction settings, or sudden changes in print speed. Adjust retraction settings, fine-tune print speeds, and optimize extrusion settings to reduce these imperfections.
What causes ghosting or ringing artifacts on my prints?
Ghosting or ringing artifacts are typically caused by mechanical vibrations in the printer. Check for loose belts, ensure stable printer assembly, and consider using vibration-dampening techniques to minimize these effects.
Why are there inconsistent layer heights or uneven surfaces in my print?
Inconsistent layer heights or uneven surfaces can result from a misaligned Z-axis, improper slicer settings, or issues with the print bed leveling. Verify Z-axis alignment, recalibrate bed leveling, and review slicer settings for improved print quality.
How do I troubleshoot and fix other common print defects?
For other common print defects like poor adhesion, rough surfaces, or excessive stringing, refer to our troubleshooting guide or consult online resources that provide specific solutions for each issue.
About 3D Printing
What is 3D printing and how does it work?
3D printing, also known as additive manufacturing, is a process of creating three-dimensional objects by layering or adding materials together, based on a digital design. It involves transforming a virtual model into a physical object by adding material layer by layer until the final object is formed.
How can 3D Printing can be Utilized for Businesses?
Businesses can utilize 3D printing for different purposes: creating prototypes during the planning phase, constructing tools or architectural components, or even handling the complete design process using 3D printing services.
What is FDM in 3D printing?
FDM, also known as Fused Deposition Modeling, is a type of 3D printing service that follows an additive manufacturing approach. It involves creating objects by depositing layers of material in a specific pattern. In this process, the material, usually a thermoplastic filament, is heated slightly above its glass transition temperature and then carefully extruded in a precise pattern onto or adjacent to previously deposited layers. This layer-by-layer deposition gradually builds up the object until it is fully formed. By melting and fusing the material in a controlled manner, FDM 3D printing enables the creation of complex and customized objects
Which is better, FDM or SLA?
When it comes to 3D printing, it’s crucial to select the appropriate method for each specific task. FDM (Fused Deposition Modeling) and SLA (Stereolithography) each have their own advantages and are suitable for different purposes.
If your goal is to create prototypes with intricate features and high detail, SLA is the preferred choice. On the other hand, FDM is more versatile and can be used for various components throughout the entire manufacturing process, including design, production, and maintenance.
By considering the specific requirements of your project, you can determine whether to use SLA for detailed prototypes or FDM for a broader range of manufacturing needs.
Why 3D printing is important?
The aforementioned 3D printing advantages make this technology a genuine potential for organizations while also emphasizing its relevance in future production procedures through quick design, high levels of accuracy, and the ability to bring strategic decisions.
Cost-cutting
Reduced waste
Shorten the production time
A greater competitive edge
Reduced errors
Confidentiality
Demand-driven manufacturing
What problems does 3D printing help solve?
3D printing offers significant potential for businesses, with advantages such as rapid design iterations, high accuracy, and strategic decision-making. It fosters innovation, streamlines production, and provides a competitive edge, making it a promising technology for shaping the future of manufacturing.
What is SLS printing?
Selective laser sintering (SLS) is a powder-based 3D printing process. It uses a laser to fuse layers of material together, gradually building the final shape. The process involves lowering the build platform while the laser draws each cross-section of the design onto a material layer. This is repeated layer by layer until the component is fully constructed.