Research offer
Research offer
The aim of the project is to develop a method for the design and manufacture of lightweight structural nodes, used in the spatial structures of vehicles
automotive industry produced in short production runs
Project assumptions:
- The modular vehicle frame structure will consist of readily available, inexpensive extruded profiles, connected by incremental aluminium alloy nodes designed for the selected vehicle structure and purpose. The design process of the nodes will use dedicated generative design tools, allowing to optimise them according to the criteria of rigidity, strength and mass.
- Additional benefits will be achieved through the development and application of incremental technologies, in particular direct manufacturing
- The additional benefits will be achieved through the development and application of incremental technologies, in particular direct manufacturing by laser melting of metal powders, or indirectly through the process of casting in lost moulds using polystyrene models produced by incremental manufacturing.
- The developed method of joining the manufactured nodes together with dedicated profiles will not cause additional thermal stresses in the material.
The implementation of the results of the BioniAMoto project brings a number of benefits, including: economic, environmental and social, while allowing dynamic development of the company. Thanks to the creation of a new product, EDAG will be perceived as investing in product development and its improvement, raising the company’s prestige. The new products will also allow the company to expand the scope of its activities, as well as shorten the time it takes to bring a new time to bring a new project to reality by shortening the supply chain. Environmental benefits arise from the technology used to manufacture the new product and the reduction consumption of production materials. Social benefits will be associated with an increase in demand for labour, materials, as well as additional services.
The assumptions adopted for the planned implementation are based on many years of experience of EDAG Polska in planning and launching new products.
THE BIONIAMOTO PROJECT
The aim of the BioniAMoto project is to develop a cost-effective method for designing and manufacturing lightweight structural nodes that can be used in the spatial structures of vehicles produced in short production runs in the automotive industry. These nodes will be made using readily available, inexpensive extruded profiles and incremental aluminium alloy components that are optimized for rigidity, strength, and mass using generative design tools. The nodes will be manufactured using advanced incremental technologies such as laser melting or casting in lost moulds, while the method of joining the nodes to the profiles will not cause additional thermal stresses in the material.
The development of this method has the potential to bring economic, environmental, and social benefits to the company, including increased prestige, expansion of the scope of the company’s activities, shortened supply chains, and reduced consumption of production materials. The project is based on the experience of EDAG Polska in planning and launching new products, and aims to lead to the dynamic development of the company.
Work together with us
The BioniAMoto project is seeking partners who are interested in collaborating on the development of lightweight and cost-effective structural nodes for the automotive industry. Our team brings a wealth of experience in design and manufacturing, and we are confident that the results of this project will have significant economic, environmental, and social benefits for all parties involved.
By partnering with us, you will have the opportunity to contribute to the development of a cutting-edge technology that has the potential to revolutionize the way vehicles are designed and manufactured. You will also be able to tap into our expertise and resources, and work alongside our team of skilled professionals.
If you are interested in exploring the benefits of collaboration, please don’t hesitate to contact us. We would be happy to discuss the potential opportunities and how we can work together to achieve mutual success.