Periodic Reporting for period 2 - ALMA (Advanced Light MAterials and processes for the eco-design of electric vehicles)
Periodo di rendicontazione: 2022-08-01 al 2024-01-31
The main goal of ALMA is the development of a novel EV structure for a passenger car with reduced weight and environmental impact, thanks to the adoption of an integrated eco-design and circular approach across the entire life cycle supported by LCA and LCC tools as core activities at the forefront of the project. Through an eco-design approach leveraging advanced lightweight materials, ALMA seeks to redefine industry standards for EV construction. Moreover, ALMA pioneers an eco-design and circular approach in battery electric vehicles (BEVs) for passenger cars, which includes choosing strategies such as the “right material for right application”, efficient assembly/disassembly solutions using debondable adhesives, recycling options and model-based characaterisation of materials at multi-scale level. It also adopts a circular approach across entire vehicle life cycle to enable further uses for the structure at the end-of-life (EoL). An integrated health monitoring and inspection system (HMS) detects and determines damages during operation preventing critical failure and enables future repair and reuse. In essence, ALMA's mission is to provide an impetus to the automotive sector, marked by responsible design, reduced environmental footprint, and a commitment to a circular economy.
In the face of climate change, addressing questions about EV range becomes an important consideration influencing the widespread adoption of electric mobility. ALMA’s holistic eco-design approach in vehicle construction using lightweight multi-materials combined with EoL material recovery and recycling solutions, addresses this societal and environmental need, setting the stage for a more sustainable automotive sector.
Following the implementation of these innovations, the ALMA project achieved its expected outcomes: the body-in-white (BiW) of ALMA’s concept car is 160 kg lighter, representing approximately 22% weight reduction compared to the baseline BEV BiW. Over the car’s entire service life, the use of other materials and weight reduction contributes to a total reduction of 1,850 kg CO2-eq, a 24% decrease in emissions. In contrast, the emissions for the entire car saw a 9% decrease.
To achieve these accomplishments, the ALMA project embraced an eco-design approach, utilizing BEVSIM's Life Cycle Assessment (LCA) and Life Cycle Costing (LCC) tool for informed material selection at each development stage. ArcelorMittal's innovation with Advanced High Strength Steels (AHSS) and steel laminates significantly contributed to lightweighting the vehicle's structure, complemented by efficient manufacturing processes and Multi-Part Integration concepts. Multi-scaled simulation methods streamlined material experimentation, while optimized vehicle structure using SMC composites for lightweighting. In the pursuit of circularity, a reversible assembly method, featuring debondable adhesives on the battery tray, showcased a commitment to efficient separation of materials at the end-of-life. Innerspec's structural monitoring system, employing acoustic signature analysis, demonstrated its capability to assess wear and detect potential damages in composites helping in early repairability of parts before critical damage. Regarding recyclability and material recovery of steel, ArcelorMittal demonstrated, at industrial scale, that the novel steel sheets proposed in the project can be recycled using the current technology applied. TNO, on the other hand, explored recycling and recovery of composite materials through solvolysis and pyrolysis processes, indicating promising potential for reuse.
To make best use of project results, the communication and dissemination strategy maximized influence through enhanced digital presence, showcasing achievements globally. Consortium partners actively presented scientific and technical advancements at international events, fostering collaboration with cluster projects. Achievements were documented in a comprehensive brochure and demonstrated through physical prototypes.