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Carbon Fiber 3D Printing Material Solutions.

Leverage the Benefits of Carbon Fiber 3D Printing

Stratasys Carbon Fiber

Why Use Carbon Fiber in 3D Printing?

Simply put, composites and thermoplastics deliver unparalleled strength. Making strong and reliable end-use parts just got easier with our materials advancements. At Stratasys, we're motivated by our customers’ demands to develop and fabricate their designs quickly to achieve the strongest part performance in the most intense environments, the first time and every time.

Advantages of Carbon Fiber in 3D Printing

Carbon fiber 3D printing has several advantages that make it an appealing choice in manufacturing. Its superior strength-to-weight ratio is one of its major selling points, providing the ability to create parts that are as strong as metal but significantly lighter. This not only enables more efficient designs but also can lead to significant savings in transport and fuel costs in industries such as automotive and aerospace. In addition, carbon fiber filled materials have greater strength and stiffness compared to their non-filled base materials. The higher mechanical properties of 3D printed carbon fiber parts opens up a wider array of applications where traditional non-filled materials may not have been optimal.

Carbon Fiber Composite Materials

Carbon fiber 3D printing is not just a novel technology – it's a powerful tool that expands the realm of what's possible in design and manufacturing. It allows for rapid prototyping and faster iterations, meaning designs can be tested and improved more quickly.

Nylon 12 Carbon Fibre

Nylon 12 Carbon Fibre

Carbon Reinforced. FDM Nylon 12 Carbon Fibre (Nylon 12CF) combines nylon 12 and chopped carbon fibre to achieve the highest flexural strength and stiffness-to-weight ratio of any FDM material. Nylon 12CF provides a cleaner carbon fibre additive process than SLA with equivalent strength properties. Lightweight Strength. FDM Nylon 12CF offers the strength and rigidity to replace metal in certain applications. Replace heavy metal tools with lighter, ergonomic carbon fibre FDM tools. Validate designs faster with carbon fibre functional prototypes instead of costly and time-consuming metal prototypes.

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FDM Nylon-CF10

FDM Nylon-CF10

FDM Nylon-CF10 is a nylon carbon fibre filament. The base polymer is filled 10% by weight with chopped carbon, which produces a composite material 67% stronger and 190% stiffer than the nylon base material. FDM Nylon-CF10 is also possesses good chemical resistance, toughness and abrasion resistance. The material’s strength and rigidity make it an excellent choice to replace metal for appropriate work holding fixtures and other manufacturing tooling. Its chemical resistance is also a desirable feature in an environment exposed to typical manufacturing fluids. FDM Nylon-CF10 possesses a uniform matte finish that produces a visually appealing surface finish.

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ABS-CF10

ABS-CF10

The benefits of ABS with the stiffness of carbon fibre. Stratasys ABS-CF10 combines the benefits of a carbon fibre filament with the desirable mechanical properties and ease of use of ABS 3D printing material. The result is an engineering thermoplastic with superior strength and rigidity for factory floor tooling applications. Significantly reduce your tooling lead time by 3D printing them with Stratasys ABS-CF10 instead of machining. Depending on the application, carbon-reinforced ABS can replace metal for lighter, more ergonomic tooling. Combined with soluble support, Stratasys ABS-CF10 can achieve complex geometries that aren’t possible with machining.

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FDM Nylon CF12 - Carbon Fiber - An Industrial FDM 3D Printing Material

Carbon Reinforced. FDM Nylon 12 Carbon Fibre (Nylon 12CF) combines nylon 12 and chopped carbon fibre to achieve the highest flexural strength and stiffness-to-weight ratio of any FDM material. Nylon 12CF provides a cleaner carbon fibre additive process than SLA with equivalent strength properties. Lightweight Strength. FDM Nylon 12CF offers the strength and rigidity to replace metal in certain applications. Replace heavy metal tools with lighter, ergonomic carbon fibre FDM tools. Validate designs faster with carbon fibre functional prototypes instead of costly and time-consuming metal prototypes.

F3703388Part

FDM Nylon-CF10 is a nylon carbon fibre filament. The base polymer is filled 10% by weight with chopped carbon, which produces a composite material 67% stronger and 190% stiffer than the nylon base material. FDM Nylon-CF10 is also possesses good chemical resistance, toughness and abrasion resistance. The material’s strength and rigidity make it an excellent choice to replace metal for appropriate work holding fixtures and other manufacturing tooling. Its chemical resistance is also a desirable feature in an environment exposed to typical manufacturing fluids. FDM Nylon-CF10 possesses a uniform matte finish that produces a visually appealing surface finish.

Over 50% stiffer & 15% stronger than standard ABS. FDM ABS-CF10 replaces metal with 3D printed carbon fiber tools for strong, rigid end effectors and fixtures that don’t flex under load.

The benefits of ABS with the stiffness of carbon fibre. Stratasys ABS-CF10 combines the benefits of a carbon fibre filament with the desirable mechanical properties and ease of use of ABS 3D printing material. The result is an engineering thermoplastic with superior strength and rigidity for factory floor tooling applications. Significantly reduce your tooling lead time by 3D printing them with Stratasys ABS-CF10 instead of machining. Depending on the application, carbon-reinforced ABS can replace metal for lighter, more ergonomic tooling. Combined with soluble support, Stratasys ABS-CF10 can achieve complex geometries that aren’t possible with machining.

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Choosing a Carbon Fiber 3D Printer

There are critical considerations that can make or break your composite printing experience such as: 

  1. Material performance and availability

  2. Crucial components and features necessary for successful composite printing

  3. Repeatability and reliability

  4. Throughput and build volume 

  5. Ease of use 

At Stratasys, we believe in transparency and enabling our customers with the necessary information to evaluate part performance and ensure a seamless printing experience. Watch our on-demand webinar where Stratasys engineers discuss essential insights needed to make an informed decision when investing in a composite 3D printer.

Commercial Carbon Fiber Capable Printers

Stratasys composite-ready carbon fiber 3D printers offer a selection of material choices and build capacity.

  • Max Build Size
  • Materials
  • Cartridge capacity
  • Software
  • Brochure
  • Max Build Size 254 x 254 x 254 mm
    (10 x 10 x 10 in.)
  • Materials PLA
    ASA
    ABS-M30
    ABS-CF10
    FDM TPU 92A
    QSR Support material
  • Cartridge capacity 2
    material spool bays (1 model – 1 support)
  • Software GrabCAD Print
    GrabCAD Print Pro
  • Brochure Download brochure
F190CR

F190CR

  • Max Build Size 305 x 254 x 305 mm (12 x 10 x 12 in.)
  • Materials ABS-CF10
    ABS-M30
    ASA
    FDM Nylon-CF10
    TPU 92A
    Support Material - QSR
  • Cartridge capacity 2
    Material spool bays (1 model – 1 support)
  • Software GrabCAD Print
    GrabCAD Print Pro
  • Brochure Download brochure
  • Max Build Size 355 x 254 x 355 mm
    (14 x 10 x 14 in.)
  • Materials PLA
    ASA
    ABS-M30
    ABS-CF10
    ABS-ESD7
    PC-ABS
    FDM TPU 92A
    Diran 410MF07
    QSR Support material
  • Cartridge capacity 4
    material spool bays (2 model – 2 support)
    Auto material changeover
  • Software GrabCAD Print & Insight
    GrabCAD Print Pro
  • Brochure Download brochure
F370CR

F370CR

  • Max Build Size 355 x 254 x 355 mm
    (14 x 10 x 14 in.)
  • Materials ABS-M30
    ASA
    FDM TPU 92A
    ABS-CF10
    PC-ABS
    Diran 410MF07
    ABS-ESD7
    FDM Nylon-CF10
  • Cartridge capacity 4
    Material spool bays (2 model – 2 support)
    Auto material changeover
  • Software GrabCAD Print
    GrabCAD Print Pro
    Insight
  • Brochure Download brochure

Industrial Carbon Fiber Capable Printers

  • Build Size
  • Cartridge capacity
  • Materials
  • Software
  • Brochure
  • Build Size
  • Cartridge capacity Up to 500 cu in.
  • Materials 16
  • Software
  • Brochure Download brochure
  • Build Size 600 x 600 x 800 mm (23.6 x 23.6 x 31.5 in.)
  • Cartridge capacity
  • Materials ASA (with SR-35 soluble support material)
    Polycarbonate (with SR-110 soluble support material)
    ULTEM™ 9085 resin (with SUP8500B breakaway support material)
    FDM Nylon 12CF (with SR-110 soluble support material)
  • Software
  • Brochure Download brochure
  • Build Size
  • Cartridge capacity Up to 500 cu in.
  • Materials 16
  • Software
  • Brochure Download brochure

"I don't think everyone was aware of the possibility of being able to 3D print parts with this level of strength until they began seeing the capabilities of (carbon fibre) Nylon 12CF."

Carbon Fiber Case Studies

Stratasys carbon fiber-ready 3D printers and carbon fiber composite materials are at the heart of the industry-altering work our customers create. If you want to learn how carbon fiber 3D printing changed the game, hear directly from our customers.

customized composite tooling

SSL cuts lead time for customised composite tooling by embracing 3D printing.

SSL cuts lead time for customised composite tooling by embracing 3D printing and reduces the expense and time-consuming process of traditional methods.

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engineers with 3d prototype

Swift Engineering shaves off production time by embracing 3D printing.

Swift Engineering shaves off production by embracing 3D printing for sacrificial tooling applications using composite 3D printing materials.

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kayak on top of car

Thule embraces additive manufacturing with FDM Nylon 12 Carbon Fibre.

Thule uses additive manufacturing with Stratasys Nylon 12 Carbon Fibre to 3D print functional prototypes, save time, cost, and drive innovation.

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customized composite tooling

SSL cuts lead time for customised composite tooling by embracing 3D printing and reduces the expense and time-consuming process of traditional methods.

engineers with 3d prototype

Swift Engineering shaves off production by embracing 3D printing for sacrificial tooling applications using composite 3D printing materials.

kayak on top of car

Thule uses additive manufacturing with Stratasys Nylon 12 Carbon Fibre to 3D print functional prototypes, save time, cost, and drive innovation.

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