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$200.00 – $1,480.00 Select optionsULTEMâ„¢ 9085
ULTEMâ„¢ 9085 Filament is Markforged’s first high-temperature printing polymer. As an extremely durable thermoplastic that exhibits excellent flame, smoke, and toxicity (FST) characteristics it is usable in production aerospace applications. ULTEMâ„¢ Filament is available in Markforged’s new 3200cc XL spool, four times larger than standard spools.ÂLearn More -
$190.00 – $760.00 Select options
Onyx
Onyx is Nylon mixed with chopped carbon fiber and offers a high-strength thermoplastic with excellent heat resistance, surface finish, and chemical resistance. Onyx serves as a thermoplastic matrix for Markforged’s composite parts. It can be printed alone or reinforced with one of our continuous fibers to give strength comparable to aluminum. Use Onyx for anything from tooling and fixtures to end-use parts. Download DatasheetLearn More -
$260.00 Select options
Onyx FR
There is no material traceability for Onyx FR. Order Onyx FR-A if material traceability is required. Onyx FR, although having identical mechanical qualities to Onyx, receives a V-0 rating on the UL94 flammability test. It works well for uses that need lightweight, high-strength, and self-extinguishing characteristics. Only the Industrial Series Printers can print on Onyx FR. Spool Size:Â 800ccLearn More -
$230.00 Select options
Onyx ESD
Onyx ESD is a static-dissipative chopped carbon fiber nylon material, precision-engineered for a tight range of surface resistance. Onyx ESD meets ESD-safe requirements of the most stringent manufacturers while offering the same industry-leading print quality of Onyx. Onyx ESD is stronger and stiffer than Onyx, with the same near-perfect surface finish, making it suitable for advanced manufacturing applications from electronics assembly to industrial robotics and process automation. Spool Size:Â 800 cc Download DatasheetLearn More -
$170.00 Select options
Smooth TPU 95A
Smooth TPU 95A is a rubber-like material that when used with Markforged composite printers offers product developers and manufacturers the ability to create flexible, impact-absorbent parts on demand. Manufacturers have historically struggled to produce flexible parts in low volumes. Conventional methods to make custom geometries in these materials generally require one-off tooling, driving high start-up costs and long lead times. Few, if any, 3D printing systems can produce viable parts with the consistency and mechanical properties required for production.Download DatasheetLearn More -
$50.00 Select options
Precise PLA
Precise PLA is our easy-to-print plastic for precision concept modeling and validation. Based on the most common 3D printing prototyping material, Precise PLA 3D prints without warping and comes in a variety of colors. Best of all, it’s affordable. So you can use as much as you need to fine-tune your designs before implementation.Download DatasheetLearn More -
$35.00 Select options
Premium ABS
Acrylonitrile butadiene styrene, or ABS, is a thermoplastic 3D printer material known for its dependability, stiffness, strength, and resilience to impacts. Additionally, it has improved chemical stability and dimensional consistency. It can be used for engineering, prototyping, function testing, component assembly, and many other things thanks to these capabilities. Toys, car body pieces, tech cases, and other items use ABS 3D-printed components. Download DatasheetLearn More -
$40.00 Select options
Premium ASA
An opaque thermoplastic 3D printing material with mechanical characteristics comparable to ABS but better in terms of UV and weather resilience is called ASA (Acrylic Styrene-Acrylonitrile). Because it can maintain its color and properties, it is frequently used in external uses. Download DatasheetLearn More -
$34.99 – $35.00 Select options
Premium PETG
The commercial thermoplastic filament for 3D printing PETG (Polyethylene Terephthalate Glycol-Modified) has outstanding chemical resilience. PETG is robust, long-lasting, heat-resistant, and simple to print on. PETG 3D printed components can be used for a variety of tasks, including development, function testing, part construction, and more. Download DatasheetLearn More -
$195.99 Select options
Industrial PA12 CF+
Industrial polymer made from biomaterials called PLA (Polylactide) is completely biodegradable and non-toxic. One of the most user-friendly 3D printing filaments on the market, it is noteworthy for being simple to use, long-lasting, and reasonably powerful. It is the material that is most frequently suggested for those who are fresh to 3D printing a result. The simplicity of use also makes it perfect for producing 3D-printed components for design, testing, and jigs and fittings. Download DatasheetLearn More -
$239.99 Select options
Industrial PPA CF
The carbon fiber-reinforced composite filament substance Raise3D Industrial PPA CF Filament is built on PPA (polyphthalamide, also known as high-performance/high-temperature Nylon). This hybrid thread has better mechanical and thermal characteristics than other Nylon strands because of its high-performance Nylon matrix. The PPA CF has reduced density, lower moisture absorption, high strength and stiffness, high wear and creep resistance, and good chemical and heat resistance thanks to well-controlled dispersion and length distribution of chopped carbon fibers (15 wt%). For end-use uses in the automotive, aerospace, electrical, and electronics (E&E) industries, it is hopeful. Download DatasheetLearn More -
$79.99 Select options
Industrial PET CF
A carbon fiber-reinforced polymer material based on PET is called Raise3D Industrial PET CF. (Polyethylene terephthalate). The rigidity, strength, heat, and chemical resilience of the PET material are improved by evenly distributed 15-weight percent carbon fibers. After cooling, PET CF achieves a tensile stiffness and strength of more than 6 GPa and 80 MPa, respectively, and stabilizes its heat resistance at a temperature of about 150 oC. Due to its superior printability, dimensional stability, high creep resistance, and low moisture absorption compared to carbon fiber-reinforced Nylon filament, PET CF is the best material to use when printing carbon fiber composites for durable and economical end uses, such as jigs, fixtures, and functional parts. Download DatasheetLearn More -
$219.99 Select options
Industrial PPA GF
Raise3D Commercial PPA GF, also known as high-performance/high-temperature Nylon, is a polyphthalamide-based polymer filament substance with glass fiber reinforcement. PPA has a higher melting point, glass transition temps (Tg), reduced moisture absorption, and better dimensional stability than aliphatic polyamides (such as PA6). The properties of the PPA matrix are further enhanced by the addition of short glass fibers (15wt.%), making PPA GF printed components hopeful for end-use uses in the automotive, aircraft, and electrical and electronics (E&E) industries. Download DatasheetLearn More -
$69.99 Select options
Industrial PET GF
Raise3D Commercial PET GF is a PET-based glass fibre-reinforced polymer thread. (Polyethylene terephthalate). Glass fibers that are evenly distributed improve the stiffness, strength, thermal resistance, and chemical resistance of the PET matrix. With a tensile stiffness and strength of over 4.1 GPa and 70 MPa, respectively, PET GF after heating stabilizes its heat resistance at about 120 °C. Download DatasheetLearn More -
$84.99 Select options
Alloy 910
Due to its exceptional mechanical performance with excellent toughness, strength, and impact resistance, nylon or PA (Polyamide) is an extensively used engineering and industrial material. It is suitable for instruments, functional pieces, and end-use components. Additionally, its low coefficient of friction makes it perfect for moving components and ergonomic instruments. Download DatasheetLearn More -
$49.99 Select options
Premium PC
A robust thermoplastic 3D printer material known as PC (Polycarbonate) is distinguished by its superior impact resistance, high rigidity, heat resistance, and flame retardant characteristics. As a result, PC filament can withstand high temps and fires while maintaining stability, absorbing pressure, and preventing deformation or fractures. PC functions well in high-temperature settings, such as under a car's hood, thanks to its 110°C heat protection. PC is frequently used for manufacturing, function testing, completed components assembly, and manufacturing because of its impact power. Download DatasheetLearn More
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