McLaren Automotive and Divergent Technologies have announced a multi-year collaboration aimed at advancing the use of additive manufacturing to enhance vehicle performance, sustainability, and production efficiency.
Divergent Technologies will contribute its unique approach to the design and manufacturing of complex structures, enabling McLaren to integrate new, more intricate designs into its vehicle architecture while achieving improved manufacturing efficiencies and supporting a more sustainable supply chain.
With a proven track record in additive manufacturing within the automotive sector, Divergent Technologies has employed 3D printing to design and manufacture complex structures, including vehicles, through its Divergent Adaptive Production System (DAPS). This data-driven digital factory integrates AI-driven generative design software, 3D printing, and automated assembly systems to create most of a car’s components.
Consumers can expect McLaren to use DAPS to additively manufacture chassis components for its next generation supercars, resulting in reduced weight and improved dynamic performance, all essential elements of the McLaren DNA. This promises to deliver superior performing and more sustainable vehicles for consumers to enjoy.
The collaboration aims to extend the use of DAPS in the automotive industry and deliver transformational vehicle design and performance to customers. McLaren Automotive CEO Michael Leiters expressed enthusiasm for the collaboration, acknowledging that the technology will reduce weight in complex structures, ultimately enhancing the driving experience of customers and supporting McLaren’s mission to push the boundaries of performance.
Divergent CEO Kevin Czinger emphasized the benefits of DAPS, noting that it offers automotive manufacturers the means to deliver fully optimized, digitally manufactured structures with unparalleled design freedom, harnessing computing power to achieve this.
In summary, the collaboration between McLaren Automotive and Divergent Technologies is poised to revolutionize car design and production by leveraging additive manufacturing and digital technology to elevate the automotive industry’s performance, sustainability, and design freedom to new levels. This represents an exciting time for both companies and for consumers seeking the next level of vehicle innovation.