Revolutionizing Additive Manufacturing: Towards a Circular Economy
Smart Materials for Sustainable Additive Manufacturing
Additive Manufacturing (AM) has the potential to transform the circular economy through innovative material options, customized designs, and more sustainable processes. It also enables higher-quality products and simplifies resource recycling.
Current Limitations: Inefficiency and Limited Material Availability
Despite its promise, AM faces challenges such as inefficient processes and a limited range of materials. Only a few metals, such as AlSi10Mg, TiAl6V4, and Inconel 718, can be reliably produced, while metal-ceramic composites encounter difficulties due to thermal incompatibility and phase segregation.
Innovation with Smart Hybrid Powders (SHP)
The project proposes a revolutionary solution: the design, production, and evaluation of Smart Hybrid Powders (SHP) with tailored characteristics for AM. These powders will be functionalized in a fluidized bed reactor, controlling their microstructure to manufacture defect-free, high-quality components.
Benefits: Towards Sustainable AM
Using tailor-made powders and controlled process parameters will deliver more durable components, fewer defects, reduced raw material usage, and waste reduction, promoting sustainability in AM.
A Groundbreaking and Revolutionary Technology
The project combines alloy design, innovative processes, and multiscale modeling to open new possibilities for more efficient and sustainable AM. This unprecedented approach promises to redefine the future of advanced manufacturing.
Department of Materials Science and Engineering and Chemical Engineering
Universidad Carlos III de Madrid (Madrid)
School of Science & Engineering
Principal Investigator
Dr. Sophia A. Tsipas
stsipas@ing.uc3m.es
SUSTAINPRO (TED2021-129895B-I00) is funded by the Spanish Government