Belotti, Moi Composites Launch Hybrid Additive/Subtractive Manufacturing Centers for Thermoset Composites

Hybrid manufacturing is rapidly emerging as a cornerstone of advanced composites production, and the Belotti‑Powered‑by‑Moi platform exemplifies this shift. By marrying Moi Composites’ short‑fiber additive technology with Belotti’s high‑precision CNC machines, the partnership delivers a seamless workflow where additive deposition and subtractive finishing occur on the same workstation. This integration eliminates the need for separate build‑up and post‑processing stations, reducing handling steps, shortening lead times, and enhancing overall dimensional accuracy—key advantages for sectors where tolerances are critical.

The core of the technology lies in Moi’s SFM process, which extrudes a photopolymerizable resin loaded with up to 45 % short fibers at speeds of 300 mm per second. The material cures instantly under UV light, forming a rigid substrate that can be milled without additional heat treatment. This heat‑free approach preserves the thermoset matrix’s inherent thermal and chemical resistance while delivering a smooth surface finish directly from the additive stage. The ability to pause, resume, or add functional layers on‑the‑fly further expands design flexibility, enabling complex, multi‑material parts that were previously impractical.

From a market perspective, the hybrid solution addresses a growing demand for faster, more adaptable composite manufacturing in aerospace, marine, energy and automotive industries. The retrofit option protects existing capital expenditures, allowing manufacturers to upgrade legacy CNC assets rather than replace them outright. Showcased at JEC World 2026, the platform signals a move toward fully digital, integrated production lines that can scale with evolving design requirements. As competitors race to offer similar capabilities, Belotti and Moi’s collaboration positions them at the forefront of a new era where additive and subtractive processes converge to deliver higher performance parts with reduced time‑to‑market.