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Description
The project aims to create new cooperation in the field of education, the employability of graduates in the labor market, increasing the professionalism and practical experience of graduates, mutual exchange of knowledge and experience between the participating universities and the secondary industrial school. The project is aimed at bachelor''s and engineering students, teachers and high school students. There will be the preparation of study materials, the innovation of study plans and the implementation of professional seminars aimed at acquiring knowledge, changing young people''s thinking about the application of production technologies with a focus on reducing CO2 emissions and practical experience in using new technologies and equipment in the educational environment. The activities and outputs of the project are targeted at the whole area defined by the call.
Summary of project results
We have made changes to the personnel records for the Finance Manager position due to an employee being on long-term sick leave. Her work is crucial to the implementation of the project and financial operations.
After obtaining the digital models, we applied advanced simulations of the manufacturing process, which allowed us to predict in detail the behaviour of the parts during production and their performance in real conditions. These simulations included analysis of the thermal, mechanical and dynamic properties of the parts. Based on these, topological optimization was performed, which allowed us to design parts with improved mechanical properties and more efficient material structure. The goal of the topological optimization was to minimize the weight of the parts without sacrificing their strength and durability, which contributed to the production of lighter and more durable components. Parameters analyzed and evaluated included the parts'' resistance to deformation, stresses in the materials, as well as their weight optimization.
The results of these analyses provided an important insight into the current state of product surface properties. Based on these results, possible problems in the production process, such as irregularities in surface treatment or inefficiencies in the techniques used, were identified. This knowledge led to the design and implementation of optimization measures, which included changes in technological procedures, adjustments in machine parameters or improvements in the quality of input materials.
These analyses gave us a comprehensive view of how individual parts would behave throughout their life cycle, allowing us to identify and address potential problems early on, before mass production began.
Summary of bilateral results
In cooperation with UiT Norges arktiske universitet i Narvik, samples were produced for students, which will then be tested in practice during practical use and their accuracy, quality and real usability will be verified. The training was attended by 13 teachers.