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3D Printers for the Factory Floor by Objective 3D

Eckhart 3D Prints Fixtures and EOAT with Nylon 12CF

“Industry 4.0 is really the ecosystem that is a smart factory. It takes all of the systems in a factory, ties them together to help not only those who manage the process, but also to help the employees on the factory floor become more informed on the health of the system.” Andrew Storm, CEO, Eckhart

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Makerbot METHOD Carbon Fibre Edition

Print Strong, Heat-Resistant Metal Replacement Parts
The METHOD Carbon Fibre 3D printer delivers outstanding surface finish with high heat resistance. The carbon fibre printed parts are engineering grade with high level strength and three dimensional accuracy. LEARN MORE >>

F123 with ABS-CF10

Over 50% stiffer & 15% stronger than standard ABS.
ABS-CF10 takes standard ABS 3D printer filament to a new level with the addition of chopped carbon fibres. Typical applications include manufacturing tools, jigs, fixtures and end effectors that benefit from the combination of increased stiffness and reduced weight. LEARN MORE >>

Fortus 450mc

Expanded material options plus carbon fibre
Scale production with a larger build size, multiple high performance material options and the strength of carbon fibre. Build the large, complex parts needed for today’s manufacturing.

Stratasys F900

Manufacturing-level production plus carbon fibre
Meet the demanding needs of today’s production environment. Get the strength of carbon fibre plus expanded material options in the largest build size. 3D print in standard thermoplastics to high-performance, heat-resistant ULTEM materials. LEARN MORE >>

3D Printing for the Factory Floor

Leveraging the Strength of Carbon Fibre


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FORTUS 450mc



355 x 254 x 355 mm
(14 x 10 x 14 in.)

406 x 355 x 406 mm
(16 x 14 x 16 in.)

914.4 x 609.6 x 914.4 mm
(36 x 24 x 36 in.)


PLA, ABS, ABS-CF10, ASA, TPU 92A, PC ABS, ABS-ESD7, Diran 410MF07, QSR Soluble Support

FDM Nylon 12CF, FDM Nylon 12, ABS-M30, ABS-M30i, ABS-ESD7, Anterro 800NA, ASA, PC, PC-ABS, PC-ISO, ULTEM 9085 resin, ULTEM 1010 resin, ST-130, Soluble and Breakaway Support

FDM Nylon 12 CF, FDM Nylon 12, FDM Nylon 6, ABS-M30, ABS-M30i, ABS-ESD7, ASA, PC, PC-ABS, PC-ISO, PPSF, ULTEM 9085 resin, ULTEM 1010 resin, ST-130, Soluble and Breakaway Support


1626 x 864 x 711 mm;
227 kg with consumables

129.5 cm x 90.2 cm x 198.4 cm
(51 x 35.5 x 78.1 in.);
601 kg
(1,325 lbs.)

2,772 x 1,683 x 2,027 mm
(109.1 x 66.3 x 78.1 in.);
2,869 kg
(6,325 lbs.)


Parts are produced within an accuracy of +/- .200 mm, or +/- .002 mm/mm, whichever is greater.

± .127 mm (± .005 in.) or
± .0015 mm/mm (± .0015 in./in.),
whichever is greater

± .089 mm (± .0035 in.)
or ± .0015 mm/mm (± .0015 in./in.),
whichever is greater


GrabCad Print

Insight, GrabCad Print

Insight, GrabCAD Print

FDM Ancillary Tooling for Composite Fabrication

FDM® has been proven to be a valuable and disruptive solution for composite fabrication tooling. In addition to layup mould tools, FDM technology offers significant advantages for ancillary tools used in secondary operations such as trimming, drilling, assembly, bonding and inspection. The benefits include reduced lead time and cost, design simplification, and ease of fabrication and use.


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