MADE-3D aims to transform additive manufacturing (AM) by tackling the challenges of producing complex, multi-material components. Conventional methods often face difficulties in optimizing lightweight structures and combining different materials due to residual stresses, cracks, and thermal mismatches. MADE-3D addresses these issues by developing efficient, sustainable, and flexible production processes that meet the growing demand for complex components with specific properties in industries like automotive, aerospace, and aeronautics.
The project focuses on developing new multi-material combinations, such as Aluminum-Copper, Nickel-Titanium, and various steel alloys, specifically optimized for Powder Bed Fusion-Laser Beam (PBF-LB) and Directed Energy Deposition (DED) processes. Advanced design and simulation tools are also employed to optimize multi-material structures, with a particular emphasis on topology optimization to meet performance requirements while reducing material use.
A strong focus on sustainability has driven the development of innovative recycling strategies for both bulk and powder materials, including methods for reusing powder waste and end-of-life components, significantly improving the environmental impact of AM technologies. To ensure further innovation, MADE-3D integrates computational material engineering by combining thermodynamics, microstructure predictions, and process simulations with machine learning. This approach accelerates development cycles, improves predictability, and enhances control over AM processes.
By overcoming the challenges of multi-material AM, MADE-3D facilitates the production of lighter, stronger, and more efficient components, aligning with EU manufacturing goals. Economically, the project spurs innovation and opens new market opportunities, especially for SMEs, by reducing material waste and increasing efficiency. Environmentally, MADE-3D supports the EU’s Green Deal and circular economy objectives by emphasizing recycling and sustainability, thereby promoting resource efficiency. Technologically, the project sets new standards in digital manufacturing, positioning the EU as a global leader in AM.
MADE-3D’s scalable technologies aim to reduce material waste, component weight, and environmental impact, making multi-material AM a valuable enhancement to traditional manufacturing techniques.