The aim of MIMOSA Project is the development of joined multi-material structures with new concepts able to achieve higher technological and economic performances with respect to current traditional joints. Furthermore, MIMOSA will lead to the application of circularity of materials and production by integrating the recycling, starting from the ideation phase of product and business. These ambitions needs will be achieved with innovative process for joining AlSi10Mg alloy from AM and CFRP without rivets or adhesives. The project proposes also the after-service materials regeneration (50% of metals and 90% of CFRP), the weight (-51%) and lead time (-65%) reduction and the overall process environmental footprint reduction. A prototype of aircraft vertical stabilizer (VS) will be fabricated as business case.
Many primary flight control (PFC) structures of aircrafts, are composed of CFRP skin and internal metal parts coupled by rivets. However this kind of joint has some drawbacks: (1) long time for assembling, (2) loss of fibers integrity due to holes, (3) rivets payload, (4) surface treatment with paints, (5) rivets failure, (6) hard inspection and maintenance. MIMOSA will go beyond the state of the art about: (1) the research-driven integration of different fabrication processes (LB-PBF, APPD, CFRP autoclave) and their certification guidelines. (2) New AM-CFRP inter-locked joint concept, with prevention of corrosion, fatigue, inhomogeneity, adhesion issues. (3) Materials recycling to reduced waste and generate economic value. (4) Improvement of the process: energy consumption, lead-time and cost. (5) Fabrication of prototype with the new MIMOSA joint, also used as business case (OB8).
Project objectives:
OB1. Design of innovative AM-CFRP joints supported by multi-physical modeling and simulation
OB2. Optimization and application of LB-PBF process for AlSi10Mg alloy
OB3. Optimization and application of APPD coating to metals
OB4. Fabrication of the joint with CFRP autoclave curing and fabrication of the prototype
OB5. Pre-standardization and establishment of safety levels for regulation and certification
OB6. After-service recycling of materials with the creation of technological and economic value
OB7. Validation of KPIs of samples and prototype (vertical stabilizer, VS) by testing campaign
OB8. Development of business plan for Project’s exploitation; economic validation through the prototype