Clusters are thematic groups that connect programmes, research activities, and innovation initiatives across the alliance. By structuring knowledge and aligning academic content across member institutions, clusters are fundamental tools for harmonizing curricula, fostering interdisciplinarity, and enabling student mobility. Indeed, they ensure that EUt+ students gain the same knowledge regardless of the campus where they studied, which opens mobilities opportunities and students can benefit from each campus' expertise while getting a real multicultural experience.
Clusters play a central role in building the EUt+ European Degree. They ensure coherence and compatibility between different national systems, create shared academic pathways, and strengthen the integration of common learning outcomes. Through clusters, EUt+ organizes its educational offer around common themes, making the European Degree a concrete and achievable reality, and reinforcing the mission of creating a unified, human-centered European University.
Therefore, each cluster defines the final learning outcome of the degree they are preparing. EUt+ has several clusters at both Bachelor and Master level, as follows:
Bachelor
- Mechanical Engineering
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Overview and fields of expertise
The Mechanical Engineering bachelor degree allows the students to specialise in the design and optimisation of mechanical systems, structures, thermal machines and manufacturing processes. The degree has the added value of benefiting from the expertise of the partners in different fields, that allows more specialization options for the students. For example, students can benefit from UTT specialization in product design and advanced mechanical simulation; from RTU expertise in analysis of material durability and structural health monitoring; from TUCN knowledge in mechanical and automotive engineering design, from UPCT connections with naval industry, from UNICAS know-how in materials selection and optimization and from CUT expertness in materials science.
Participating memberUPCT, RTU, TUCN, TUS, h_da, UNICAS, UTT, TUD, CUT
- Civil Engineering
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Master
- Mechanical Engineering
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Overview and fields of expertise
The Mechanical Engineering Master degree equips students to design and manufacture tomorrow’s mechanical systems by integrating cutting-edge technologies, digital prototyping tools, and emerging materials, all while addressing growing environmental constraints. The degree has the added value of benefiting from the expertise of the partners in different fields, that allows more specialization options for the students. For example, students can benefit from UTT know-how in digital product and its links with the automotive and aerospace industries; from RTU expertness in development of innovative manufacturing; from TUCN expertise in design, simulation, and control of advanced mechatronic systems and from UPCT specialization in renewable energy sources and biomedical research, from UNICAS knowledge in automation, process optimization and environmental preservation and from CUT expertise in energy systems.
Participating members
UPCT, RTU, TUCN, TUS, h_da, UNICAS, UTT, TUD, CUT - Civil Engineering
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