Learning Support

    Mechatronic System Design Mechatronic System Design

    After the completion of the Master´s Programme in Mechatronic System Design the student will acquire extensive knowledge of the design, hydraulics, control, dynamics and simulation of machines. A student will also learn about environmentally conscious design and the development of new technologies to solve current and future global problems. During the studies, a student will be able to apply simulation tools to analyse demanding machine systems. A student will also become familiarised with programming and the application of numerical methods, both required in different fields of mechanical engineering. This expertise can be applied to the most demanding research and development processes of the global industry. 


    Learning outcomes 2019-2020 will be found in study guides in WebOodi.
      

    The head of the Master´s programme in Mechatronic System Design is professor, D.Sc. (Tech.) Jussi Sopanen. 

    Advanced Structural Design and Robotised Welding Advanced Structural Design and Robotised Welding

    After completing Master’s Programme in Advanced Structural Design and Robotised Welding a student will learn about the design, analysis, robotized fabrication and research of modern and competitive welded metal structures. A student will acquire a good understanding about the strength and ductility properties of metallic materials and their behaviour under long-term loading together with their weldability aspects. This will provide competencies to design different types of metal structures such as machine bodies, bridges, buildings, structural components and bodies for vehicles or supporting structures for different types of engineering applications. A student will get familiar with different simulations software used for product design, production animation and robot simulations.


    Learning outcomes 2019-2020 will be found in study guides in WebOodi.


    The head of the Master´s programme in Welded Metal Structures is professor, D.Sc. (Tech.) Antti Salminen. 

    Sustainable Production in Mechanical Engineering Sustainable Production in Mechanical Engineering

    After completing Master’s Programme in Sustainable Production in Mechanical Engineering a student will be ready to engage in modern, world-class manufacturing for a sustainable future. A student will learn to see the possibilities and restrictions of sustainable production. During the studies, a student will develop skills enabling to participate in demanding global development tasks of product and production design. A student will be able to analyse challenging production tasks also by using simulation software. A student will be familiarised with both traditional manufacturing of metal constructions and modern production which utilises new fibre and composite based materials.


    Learning outcomes 2019-2020 will be found in study guides in WebOodi.

    The head of the Master´s programme in Sustainable Production in Mechanical Engineering is professor, D.Sc. (Tech.) Juha Varis.

    Industrial Design Engineering Industrial Design Engineering

    After completing Master's Programme in Industrial Design Engineering a student will have a proper skill in in seeing the problems from multiple perspectives and find innovative solutions in relation to production processes, consumers products, interactions and processes. The students will learn practical issues in design and production process in close collaboration with Finnish companies in applied projects. Students will be able to develop effectively and design new products and services in the global industrial scale. Students will gain related skills in concept visualization, product development, technological and commercial perspectives. Finishing the master´s degree studies will give students deepened knowledge in modelling and visualization in 3D CAD systems.


    Learning outcomes 2019-2020 will be found in study guides in WebOodi.   

    The head of the Master´s programme in Industrial Design Engineering is D.Sc. (Tech.) Amir Toghyani.