CompositesIndustrial Additive ManufacturingMaritime IndustryMaterials

Addressing key challenges in composite AM for maritime parts

Opening new opportunities in equipment production via Additive Fusion technology

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While wood is an excellent, anisotropic material and still used in modern shipbuilding, many other materials have since made their appearance, including metals, polymers and composites. As in other fields, the racing segment provides glimpses of how ships could be made in the future. In the America’s Cup, by many considered Formula 1 on water, most parts are manufactured out of carbon fiber-reinforced composites. Using composite AM for maritime equipment could help address some key challenges.

While composites are found in larger boat components like hulls, masts, sails, foils, etc., metal still dominates in smaller, thicker, more complex parts—regardless of whether the boat is for racing, shipping, or leisure.

Practical fiber-placement limitations with continuous-fiber composites, resolution in machined composites and challenges accurately predicting the performance of discontinuous-fiber composites lead to lower repeatability and reproducibility (R&R) values and higher costs—particularly with smaller parts produced at lower volumes—limiting usage of these materials in applications where they could be quite useful.

Addressing key challenges in composite AM for maritime equipment
Additive Fusion Technology uniquely combines the benefits of additive manufacturing and compression molding in metal molds

To solve these challenges, the new Additive Fusion Technology (AFT) developed by 9T Labs combines the resolution and unmatched design freedom of 3D printing with the performances of compression-molded continuous-carbon fiber composites.

The hybrid AFT platform produces precision structural parts in continuous carbon fiber-reinforced thermoplastic composites in small to medium size (printer build envelope 350 x 270 x 250 mm) for low to medium volume production (100 to 10,000 parts/year). Uniquely, the technology combines 3D printing—done in the Build Module layup/preform machine—followed by consolidation and forming in the Fusion Module compact compression press with matched-metal mold. Final parts also offer 100% traceability.

9T Labs’ Build and Fusion modules
composite AM for maritime equipment
A new level of filament deposition freedom and resolution for continuous fiber composites through 3D printing

The system produces parts with higher complexity achieved with greater design freedom, the ability to insert hardware to reduce finishing, plus finer fiber-orientation control than other continuous-fiber layup/forming processes. Scrap rates are greatly reduced since parts are printed near net shape. Exclusive focus on thermoplastic matrices brings fast cycle times, recyclability and the ability to join smaller components into larger, more complex modules via welding. Excellent surface finishes, low voids and high R&R are accomplished by consolidating/forming in metal molds. Additive Fusion Technology permits cost-competitive manufacturing in part sizes and production volumes typically hard to achieve in structural carbon composites.

composite AM for maritime equipment
Continuous-fiber composite headboard manufactured via the hybrid AFT additive manufacturing process

Initially, design opportunities that reduce weight and cost while increasing the performance of marine equipment are being targeted. Suitable parts already identified include headboards, V-block, CRX rollers and winch handles.

In the case of headboards, the benchmark material is aluminum. With AFT, part weight can be halved (from 1.05 kg to 0.55 kg) at a competitive cost.

Finally, in addition to optimizing mechanical properties at lower mass and cost, another benefit of producing composite parts via additive manufacturing is the opportunity to apply surface layers with unique aesthetic functions.

Endless possibilities for design and aesthetics:

Composites AM 2024

746 composites AM companies individually surveyed and studied. Core composites AM market generated over $785 million in 2023. Market expected to grow to $7.8 billion by 2033 at 25.8% CAGR. This new...

Yannick Willemin

Yannick is into innovation and technology topics with deep experience in the composite and advanced materials field. He has both an engineering degree in mechanics and an MBA in entrepreneurship. During his 13 years at SGL Carbon, he acquired both composites and managerial competencies through his roles in R&D, Sales, Procurement, and Innovation Strategy. In January 2020, he joined 9T Labs as Head of Marketing & Business Development.

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