Threading the Needle with Ease: Minimum Fiber Feature Sizes
Markforged composite filaments have incredible properties, and can add high strength and stiffness to many 3D printed parts. Like all manufacturing processes, however, composite-reinforced 3D printing is better suited for certain applications which can leverage the advantages of the specific process. In CNC machining operations, for example, a square end mill cutter can produce pocketed features or slots down to a minimum width, which is constrained by the diameter of the end mill selected, so a CNC mill excels at producing pocketed features larger than the minimum size.
Similarly, Markforged composite filaments have a fixed width when printed, and due to spatial limitations, can only be used to reinforce structures which exceed a minimum thickness. A common design challenge our customers encounter when reinforcing a part with composite filaments is that the part has a narrow cross-sectional geometry in a certain region that doesn’t leave room for our composite filaments. Since it’s always more efficient to design a part from the outset with the capabilities of its production process in mind, we’ve come up with this handy guide on best practices for effectively designing parts for composite-reinforced 3D printing.
Reinforce Between the Lines
Markforged composite filaments need to be able to flow between the outer nylon shells of a part, so leaving enough space for them is paramount. When reinforcing a thin section, you need to use a concentric fiber ring in Eiger to ensure a single path of fiber is laid down through the narrow geometry. You can either do this through using the ‘Concentric Fiber’ fiber pattern in Eiger, or by using the ‘Isotropic Fiber’ fiber pattern with at least one ‘Concentric Fiber Ring’ specified, if you need additional reinforcement elsewhere in the part. In the image below, I’ve simply used the ‘Concentric Fiber’ pattern to add a single path of Kevlar. Note that specifying a number of ‘Concentric Fiber Rings’ tells Eiger to automatically reinforce the part with up to that number of rings if there is space to do so.
If the cross-section of the part being reinforced allows for a continuous loop (such as in the image above), then a single path of fiber can be laid down to reinforce the part. The width of a fiber path is approximately 1 mm, and with the two nylon shell paths on either side of the fiber, the minimum part thickness that can be reinforced is approximately 2.9 mm. This is the minimum dimension you should incorporate into your design if you wish to reinforce a section with composite fiber.
The minimum width of a part with a continuous loop that can be reinforced with Markforged composite filament is 2.9 mm
Turning the Corner
But what about thin sections which project out from the main body of a part and are only connected to the part at one end? This scenario is common in vanes, turbine blades or propellers as an example. In this case, the fiber must double back on itself to make a concentric ring.
In this case, two paths of fiber need to fit into the projecting feature. As we mentioned before, each path of fiber is approximately 1 mm, which results in a minimum width for a projecting feature of 3.8 mm.
The minimum width of a fiber-reinforced projecting feature is 3.8 mm
The rule of thumb for projections described above is most important for projecting features which need fiber at critical points along the projection — namely sprockets and gears. In order for the tooth of a gear to be properly reinforced with fiber all the way from the root to the tip, it must be wider than the the minimum 3.8 mm threshold at the tip of the gear tooth.
In the case of smaller gears and sprockets, fiber can often help reinforce the tooth, but may not be able to fit all the way to the tip. This will still result in a gear that is stronger than a pure plastic one, but may be weaker locally along the tooth than desired.
In summary, to properly reinforce a part with fiber:
- The minimum part width for a thin region connected to a larger part at both ends is 2.9 mm
- The minimum part width for a projecting feature is 3.8 mm
Want to try printing your own industrial strength parts? Request a demo of the Mark Two today!
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