NTU and Fluxo Forge NAMIC-Backed Alliance to Pioneer Advanced Composites for Robotics
Singapore's innovation ecosystem is gaining momentum with a groundbreaking collaboration between Nanyang Technological University (NTU) and Fluxo Technologies, supported by the National Additive Manufacturing Innovation Cluster (NAMIC). Announced in February 2026, this partnership targets the development of carbon fibre-reinforced polyphenylene sulfide (PPS) composites tailored for selective laser sintering (SLS) 3D printing. The focus is on creating high-performance materials for humanoid robot joints and transmission systems, addressing key challenges in robotics scalability and efficiency.
This initiative underscores NTU's pivotal role in advancing Singapore's position as a global hub for digital manufacturing and robotics research. By leveraging NTU's expertise in additive manufacturing, the project promises to accelerate the transition from lab concepts to industrial applications.
Spotlight on the Key Partners Driving Innovation
NTU, through Professor Zhou Kun's research group at the HP-NTU Digital Manufacturing Joint Laboratory and the Singapore Centre for 3D Printing, brings world-class capabilities in polymer processing and multiscale simulation. The centre has long been at the forefront of 3D printing research, developing solutions for aerospace and medical sectors. Leading the effort is Dr. Meixin Zhou, a research fellow specializing in polymer powder bed fusion technologies. Her prior work with international partners like Arkema and A*STAR's SIMTech has honed techniques in machine learning-assisted material optimization.
Fluxo Technologies, a Singapore-based pioneer in sustainable polymers for SLS 3D printing, contributes its proprietary Rytexint™ PPS platform. Known for materials like Plexint™ CPLA derived from CO2, Fluxo emphasizes eco-friendly, high-performance powders compatible with standard SLS printers. Founder and CEO Yuanbin Bai highlights the company's motto: “Free to Make · Bold to Change.”
NAMIC, under A*STAR, provides crucial funding and ecosystem support, uniting over 5,800 organizations to commercialize additive manufacturing technologies. This cluster has approved more than 320 projects, fostering Singapore's manufacturing digital transformation.
Learn more about NAMIC's initiatives in bridging academia and industry.
Decoding Carbon Fibre-Reinforced PPS Composites: Properties and Science
Polyphenylene sulfide (PPS) is a semi-crystalline thermoplastic engineering polymer renowned for its exceptional thermal stability—withstanding continuous use up to 260°C—and inherent flame retardancy (UL94 V-0 rating). It exhibits low moisture absorption (<0.02%), superior chemical resistance to acids, bases, and solvents, and excellent dimensional stability, making it ideal for harsh environments.
Reinforcement with carbon fibres (typically 10-30 wt%) dramatically enhances mechanical performance. Step-by-step, the composite's advantages unfold:
- High tensile strength and stiffness: Carbon fibres provide modulus up to 50 GPa, reducing weight by 50-70% compared to metals while matching strength.
- Wear and fatigue resistance: Ideal for dynamic robot joints enduring millions of cycles.
- Low thermal expansion: Coefficient of ~10-20 ppm/°C ensures precision in assemblies.
- Electrical insulation: Low dielectric constant suits transmission systems.
Unlike PEEK (polyether ether ketone), which excels in ultra-high temperatures but costs 5-10x more, PPS-CF offers comparable performance at lower expense, enabling mass production.
SLS 3D Printing: The Enabling Technology for Complex Robot Parts
Selective Laser Sintering (SLS) fuses polymer powder layers with a CO2 laser, building parts without supports due to powder bed recycling. For PPS-CF:
- Powder spreading: Uniform 100μm layer of Rytexint™ PPS-CF.
- Laser scanning: Selective melting at ~280°C build chamber.
- Cooling and depowdering: Controlled to minimize warping.
Benefits include intricate geometries for optimized joints (e.g., lattice structures reducing weight 40%), rapid prototyping (days vs weeks), and batch production. Fluxo's powders achieve speeds up to 20,000 mm/s, 100x faster than FDM.
NTU's simulations predict fiber orientation, optimizing anisotropy for torque transmission.
Photo by Enchanted Tools on Unsplash
Humanoid Robots: Why Advanced Composites Matter Now
Humanoid robots like Tesla's Optimus demand lightweight actuators for 20+ hour battery life and agile motion. Joints/transmissions face high torque, friction, and heat. Traditional metals add weight; injection molding limits complexity.
PPS-CF enables:
- 50% weight reduction vs aluminum.
- Integrated gears/housings, cutting parts 30%.
- Cost drop from S$100 to S$20/part at scale.
Singapore's robotics market, projected S$1B by 2030, benefits immensely. NTU's Schaeffler-NTU lab complements with AI-powered actuators.
Explore research roles in Singapore robotics.
Overcoming Challenges: From Lab to Factory Floor
Key hurdles in PPS-CF SLS:
- Powder flowability: Carbon fibres cause agglomeration; NTU optimizes via surfactants.
- Laser absorption: Dark CF aids uniform sintering.
- Post-processing: Minimal warping via controlled cooling.
Dr. Zhou's ML models predict defects, slashing trials 70%. Fluxo's eco-powders reduce waste 90% vs metals.
Expert Insights and Vision for the Future
"Elon Musk’s PEEK adoption inspires, but PPS unlocks mass markets," says Bai. Prof. Zhou emphasizes "materials-structures-processes integration" for aerospace-to-robotics translation.
This aligns with Singapore's Industry 4.0, targeting 30% AM adoption by 2030.
Fluxo Technologies details Rytexint™ specs.NTU's Legacy in Additive Manufacturing and Robotics
NTU's Singapore Centre for 3D Printing pioneers RoboFabric and mobile concrete printers. Recent Schaeffler lab advances AI humanoids. This partnership builds on 550+ NAMIC projects.
Photo by Enchanted Tools on Unsplash
Industry Impacts and Economic Ripple Effects
Potential: S$500M robotics exports boost. Jobs in AM: 5,000 new by 2028. Sustainability: 40% lower energy vs CNC.
- Supply chain localization.
- Skills training via NTU.
- Global competitiveness vs China/Japan.
Looking Ahead: Scalability and Next Horizons
Short-term: Prototype joints Q4 2026. Long-term: Household robots, EVs. Challenges: Certification, fiber alignment.
Solutions-oriented: NTU-Fluxo eyes PEEK hybrids. Singapore leads AM-robotics fusion.
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