Wednesday, 20 November 2019

Carbon Fiber Parts and Additive Manufacturing.

Need for Carbon Fiber Parts

Carbon Fiber parts are:
  • Light weight. 70% lighter than steel and 40% lighter than Aluminum.
  • Highly Strong and Stiff.
  • Heat resistant.
  • Posses very low coefficient of thermal expansion.
  • Highly corrosion resistant.
  • Resistant to chemicals.
  • Conductor of heat and electricity. 

 Challenge in Additive Manufacturing of Carbon fiber Parts

Because of very high melting temperature (around 3600 C) of the Carbon Fiber material, generally used mass manufacturing methods like Injection molding, Blow molding and Die-casting can not be used for Carbon fiber products. The same applies in Additive manufacturing as well. Currently used technologies in additive manufacturing are not capable of handling materials with such a high melting temperature. We can not process carbon fiber the conventional way (Extrusion or Binding and sintering).

Additive Solutions for Carbon Fiber Parts

Composite Parts by ExOne Washout Tooling

ExOne can print on-demand composite parts by their 3D Printed washout tooling.
3D printed soluble support materials are designed to create hollow tooling and composite parts with trapped geometries. You can order parts on demand developed with washout tooling for aircraft ducting, pressure tanks, mandrels and more.
Currently, ExOne only offers printed and coated cores. Composite layup, curing and washout is completed by our customers using filament winding or application of prepreg woven fabric. Common layup materials that can be applied to our cores are: carbon fiber, fiberglass, aramid fiber or ceramic matrix composites (CMC). 


More about ExOne can be found here

 

Automated Fiber Placement (AFP) Method

Printing is performed with one of the thermoplastic material by FDM method. During the printing layers of FIBER are laid in certain area of the print to improve tensile strength.


Desktop Metal AFP machines

The company revealed Fiber HT and Fiber LT machines recently. The world’s first desktop 3D printer to fabricate high resolution parts with industrial grade continuous fiber composite materials used in automated fiber placement (AFP) processes. Based on a new process called micro automated fiber placement (μAFP), users can now print parts with a superior level of strength and stiffness, and in a broad range of materials, that traditionally required million dollar AFP systems. More can be red about the release here.
       

Advancement by Anisoprint

Anisoprint CCF (Composite Carbon Fiber) and CBF (Composite Basalt Fiber) are a composite reinforcing fibers in the form of a tow made of thousands of ultrathin carbon or basalt monofilaments, impregnated with a special polymer composition ensuring high-quality adhesion between the polymers and the fiber. Composite fiber is used to reinforce the plastic during fabrication of the part.

Learn more about Anisoprint products and technology here
 

Markforged Mark Two

Print composite parts as strong as aluminum on our top-of-the-line desktop machine. The Mark Two combines Markforged’s unique continuous carbon fiber reinforcement with workhorse reliability for the strongest, most versatile parts. As an industrial 3D printer in a desktop form factor, the Mark Two delivers high-performance parts straight off the print bed. 




 

Chopped Fiber Filament

In this process shredded bits of carbon fiber are mixed with PLA or ABS or Nylon Or another 3D printing plastic. The filament is manufactured of this mixture of plastic an carbon fiber. In the 3D printing process plastic will be melted and extruded but shredded carbon fibers will be extruded un-melted and will be embedded within the plastic. Carbon fiber enforces the plastic and printed products are many times stronger.

Hobbyists 

Can take advantage of open source carbon fiber filaments. There are plenty of brands available on amazon  These materials works fine on most personal FDM machines.

Industrial Users

Fortus 380mc and Fortus 450mc industrial FDM machines are able to print high quality and high resolution parts with their Nylon12CF materiel. Find out more about these machines here
Fortus systems are based on Stratasys FDM technology, so you can build durable parts in production-grade and high-performance thermoplastics. The Fortus 380mc gives you the option of up to eight different materials*. The Fortus 450mc lets you build larger parts with those familiar materials, as well as high-performance thermoplastics* such as FDM Nylon 12CF (carbon fiber) and ULTEM™ resins, for specialized industries like medical, aerospace, research and defense. Create high-performance and complex parts without the need for additional employee training, as the Fortus systems come equipped with an intuitive touchscreen interface for an efficient workflow.
*Standard and engineering thermoplastics: Both the Fortus 380mc and 450mc. High-performance thermoplastics and sacrificial tooling material: Fortus 450mc only.



References:
ExOne
Desktop Metals
Anisoprint
Markforged
Stratasys

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