What is filament?

This is a recommends products dialog
Top Suggestions
Starting at
View All >
Language
French
English
ไทย
German
繁體中文
Hi
All
Register & Shop at Lenovo Pro
Register at Education Store
Delete icon Remove icon Add icon Reload icon
TEMPORARILY UNAVAILABLE
DISCONTINUED
Temporary Unavailable
Cooming Soon!
. Additional units will be charged at the non-eCoupon price. Purchase additional now
We're sorry, the maximum quantity you are able to buy at this amazing eCoupon price is
Sign in or Create an Account to Save Your Cart!
Sign in or Create an Account to Join Rewards
View Cart
Your cart is empty! Don’t miss out on the latest products and savings — find your next favorite laptop, PC, or accessory today.
Remove
item(s) in cart
Some items in your cart are no longer available. Please visit cart for more details.
has been deleted
Please review your cart as items have changed.
of
Contains Add-ons
Subtotal
Proceed to Checkout
Yes
No
Popular Searches
Hamburger Menu
Outlet
skip to main content
All


What is filament?

Filament is a thin, flexible material used in three-dimensional (3D) printing, primarily made of thermoplastics like polylactic acid (PLA) or acrylonitrile butadiene styrene (ABS). It is fed into a 3D printer, melted, and extruded layer by layer to create three-dimensional objects.

Can filament be used in different types of 3D printers?

Yes, filament can be used in various types of 3D printers, including fused deposition modeling (FDM) and some selective laser sintering (SLS) printers, depending on the material and compatibility with the printer's specifications.

What are the common types of filament materials used?

Common types of 3D printing filament include polylactic acid (PLA), acrylonitrile butadiene styrene (ABS), polyethylene terephthalate glycol (PETG), thermoplastic polyurethane (TPU), and nylon.

Does the type of filament affect the final print quality?

Yes, the type of filament can significantly impact the final print quality. Some filaments, like polylactic acid (PLA), provide better surface finishes and are easier to print with, while others, like acrylonitrile butadiene styrene (ABS), may require a heated print bed for better adhesion and reduced warping.

What are the advantages of using polylactic acid (PLA) filament?

PLA filament is biodegradable, easy to print with, and emits less odor during printing. It is an excellent choice for beginners due to its user-friendly nature and compatibility with most three-dimensional (3D) printers.

Could you explain the benefits of using acrylonitrile butadiene styrene (ABS) filament?

ABS filament is known for its durability, impact resistance, and ability to withstand higher temperatures. It is a preferred choice for functional prototypes, outdoor applications, and objects that may be exposed to more demanding conditions.

What is the recommended storage method for filament?

To maintain the quality of filament, it's essential to store it in a cool, dry place and away from direct sunlight. Storing filament in a sealed container with desiccant can help prevent moisture absorption, which can negatively affect print quality.

Does humidity affect filament quality?

Yes, humidity can affect filament quality. Moisture-absorbed filament may produce bubbles, poor adhesion, and inconsistent prints. Using a dry box or dehumidifier can help mitigate humidity-related issues.

Can filament colors impact the three-dimensional (3D) printed object's appearance?

Yes, filament colors can significantly impact the appearance of the final 3D printed object. Bright and vivid colors may enhance aesthetics, while transparent filaments can create a unique see-through effect for certain applications.

What are the best practices for changing filament colors during printing?

When changing filament colors during printing, it's essential to pause the print at a suitable layer, carefully remove the previous filament, feed in the new color, and resume printing. This process requires precision to achieve a seamless color transition.

What is the typical diameter of a three-dimensional (3D) printing filament?

The standard diameter for most 3D printing filaments is either 1.75 mm or 2.85 mm (3.00 mm). It is crucial to use the correct diameter for your 3D printer's extruder to ensure smooth and consistent printing.

What is the role of the heated print bed when using filament?

The heated print bed helps improve the adhesion of the first layer of filament to the build platform. It also reduces warping, especially with materials like acrylonitrile butadiene styrene (ABS), by keeping the lower layers at a controlled temperature during the printing process.

Does filament choice affect the three-dimensional (3D) printing speed?

Yes, the type of filament can affect 3D printing speed. Some materials require slower print speeds to achieve better results, while others can be printed faster without sacrificing quality.

Can filament properties impact the strength of three-dimensional (3D) printed objects?

Yes, the choice of filament significantly influences the strength and durability of 3D printed objects. Some filaments, like Nylon, are known for their high tensile strength, making them suitable for mechanical parts and functional prototypes.

What are the post-processing steps for three-dimensional (3D) prints using filament?

Post-processing steps for 3D prints with filament may include removing support structures, sanding rough surfaces, and applying various finishing techniques like painting or polishing for a refined appearance.

What is the role of infill when using filament?

Infill is the internal structure of a three-dimensional (3D) printed object, filling the space between the outer walls. Adjusting the infill percentage can affect the object's strength, weight, and printing time.

Does filament type influence the temperature settings for three-dimensional (3D) printing?

Yes, different filaments have specific temperature requirements for the extruder and heated bed. It is crucial to follow the guidelines or perform calibration to achieve optimal print settings for each filament type.

What are the safety considerations when working with filament and three-dimensional (3D) printers?

When working with filament and 3D printers, it's important to maintain good ventilation in the printing area to avoid inhaling potentially harmful fumes. Additionally, exercise caution when handling hot components and sharp tools used for post-processing.

What are some eco-friendly options for filament materials?

Eco-friendly filament options include polylactic acid (PLA), which is made from renewable resources like cornstarch or sugarcane, making it biodegradable and compostable. There are also filaments made from recycled materials, reducing environmental impact.

Does the brand of filament matter in three-dimensional (3D) printing?

Yes, the brand of filament can make a difference in print quality and consistency. Reputable brands often have better quality control and provide more reliable filament, resulting in smoother prints and fewer issues.

What is the impact of nozzle diameter on filament prints?

The nozzle diameter affects the level of detail and print speed. Smaller nozzles (e.g., 0.4 mm) produce finer details but can increase print time, while larger nozzles (e.g., 0.6 mm) are faster but with reduced resolution.

Can filament be used for creating functional prototypes?

Yes, filament is widely used for creating functional prototypes across various industries. Its versatility, ease of use, and range of available materials make it a popular choice for rapid prototyping and iterative design processes.

What is the role of slicing software in three-dimensional (3D) printing with filament?

Slicing software converts 3D models into G-code instructions that the 3D printer can understand. It allows users to customize printing settings, such as layer height and infill density, for optimal printing results with different filaments.

What are the possibilities of multi-color three-dimensional (3D) printing with filament?

Multi-color 3D printing can be achieved using either dual extruders or by pausing the print to manually change filaments. It allows for intricate designs, color gradients, and the ability to create visually appealing, complex objects.

What are some advanced techniques for filament three-dimensional (3D) printing?

Advanced techniques include using variable layer heights for smoother curved surfaces, adaptive layer heights for reducing print time without sacrificing quality, and gradient infill for optimized strength in specific areas of the object.

What is the impact of filament color on print time and material usage?

Dark-colored filaments absorb more heat and may require slightly higher temperatures, potentially increasing print time. Additionally, using lighter-colored filaments can make imperfections less noticeable, potentially reducing post-processing time.

What are some creative ways to use filament in three-dimensional (3D) printing?

Besides creating functional prototypes and objects, filament can be used for artistic sculptures, architectural models, custom jewelry, tabletop gaming accessories, and cosplay props, showcasing the versatility of 3D printing technology.

{"pageComponentDataId":"e857fdeft7e51-4b61-84dc-bccec6e68e00","pageComponentId":"e857fdeft7e51-4b61-84dc-bccec6e68e00","isAssociatedRelease":"true","pageComponentDataLangCode":"en_au","configData":{"jumpType":"currentTab","headlineColor":"black","displayNumber":"","styleMode":"vertical","miniCardHoMode":"2","headline":"","products":[{"number":{"t_id":"21kccto1wwau5","language":{"en_nz":"21kccto1wwau5","en_au":"21kccto1wwau5","en":""},"id":"Pageb33ce4b8-4839-4ba3-b993-7296d68a91b8"}},{"number":{"t_id":"21mccto1wwau3","language":{"en_nz":"21mccto1wwau3","en_au":"21mccto1wwau3","en":""},"id":"Page1fa61927-074c-4fe0-a8df-5c94362fb75c"}},{"number":{"t_id":"21lkcto1wwau3","language":{"en_nz":"21lkcto1wwau3","en_au":"21lkcto1wwau3","en":""},"id":"Pageca014688-410e-439a-a4c6-bba2ef6d4715"}},{"number":{"t_id":"21g2cto1wwau3","language":{"en_nz":"21g2cto1wwau3","en_au":"21g2cto1wwau3","en":""},"id":"Page79cd32c8-d467-4d68-b955-d273bb24eda7"}}]},"urlPrefix":"AAAAAAAH","title":"glossary-right-blue-boxes-fragment","pageId":"65b55929-de05-417a-a92a-ccb888d329b0","urlEdit":0,"uri":"/FragmentDirectory/glossary/glossary-right-blue-boxes-fragment.frag","pageComponentUuid":"e857fdeft7e51-4b61-84dc-bccec6e68e00"}
coming coming
Starting at
List Price
Web Price
Web Price:
List Price
Web Price
List Price is Lenovo’s estimate of product value based on the industry data, including the prices at which first and third-party retailers and etailers have offered or valued the same or comparable products. Third-party reseller data may not be based on actual sales.
Web Price is Lenovo’s estimate of product value based on industry data, including the prices at which Lenovo and/or third-party retailers and e-tailers have offered or valued the same or comparable products. Third-party data may not be based on actual sales.
Learn More
See More
See Less
View {0} Model
View {0} Models
Part Number:
Features
See More
See Less
compare
Added!
Great choice!
You may compare up to 4 products per product category (laptops, desktops, etc). Please de-select one to add another.
View Your Comparisons
Add To Cart
Add To Cart
We're sorry,
Products are temporarily unavailable.
Continue shopping
Learn More
Coming Soon
Featured Product
Top Deals of the Day
Oops! No results found. Visit the categories above to find your product.
Save
open in new tab
© 2024 Lenovo. All rights reserved.
© {year} Lenovo. All rights reserved.
Compare  ()
x