9 Degrees in Engineering Studies Industrial Engineering in Sweden for 2024
- Linköping, Sweden
Full time
4 semesters
On-Campus
English
This program gives you the skills to adopt changes in an industrial environment in a responsible and efficient manner, through established concepts in manufacturing, quality, and innovation.
- Stockholm, Sweden
Full time
2 years
On-Campus
English
The master's programme in Industrial and Environmental Biotechnology provides a deep understanding of how to design and operate state-of-the-art life science-based processes with respect to product quality, sustainability and finance. Graduates have the competencies and skills to use cells, cell components and biomolecules to produce commodities such as chemicals, food, biofuels, clean water or soil and biomaterials for the development of a sustainable society.
- Jönköping, Sweden
Full time
2 years
On-Campus
English
The Program aims to provide students with knowledge and skills related to product development, design and manufacturing and is specifically targeted towards preparing graduates for a career within the assistive technology sector.
- Luleå, Sweden
Full time
2 years
On-Campus
English
Effective operation and maintenance processes are very important for a sustainable future. This Master's program is designed to fulfill both industrial and academic demands so that you can pursue a career in a technical and competitive industry or academia. The goal of maintenance is to keep all systems functioning by applying identification and prevention of problems.
- Trollhättan, Sweden
On-Campus
English
The course consists of seminars and laboratory experiments in the research area of thermal spraying. The course contents are: Introduction to surface engineering, Principles of different types of thermal spray processes, Fundamental mechanisms of coating formation, Overview of equipment, feedstock materials, coating properties, coating characterisation and applications, Study visit to a production facility.
- Trollhättan, Sweden
On-Campus
English
Digitization challenges and transforms several different areas both in our everyday lives and in working life. This course focuses on the enormous opportunities and challenges that arise when the industry is digitized. With each new technological leap, you need to understand how the technology works in order to be able to make the best use of it. Digitization affects companies in different ways, and at different rates depending on which new technologies can be used and how the company's value chain is structured. Digitization gives the company the opportunity to streamline, increase quality and reduce production costs, increase flexibility and new revenues. With the right knowledge and insights into the challenges and opportunities of digitalisation, you create a good basis for strategic and operational decisions. The goal is a production that is smart, flexible and resource efficient, which also contributes to the company's attractiveness as a workplace.
- Trollhättan, Sweden
On-Campus
English
The idea is to introduce students to Machine Elements including product development (machine design). This is done in lecture form where an orientation and description is given for the basic conditions for achieving a functioning machine. In addition, there is a practical exercise that involves dismantling and analyzing a machine and reassembling it, listing which machine elements the machine is built of, and answering how the designer has thought in terms of economy, environment, destruction, quality etc.
- Trollhättan, Sweden
On-Campus
English
This course aims to enhance the competence of students in use of mathematical models and computational tools in analysis of machine elements. The main content of the course is theories and calculation models to be able to dimension and assemble machine elements.
- Trollhättan, Sweden
On-Campus
English
The course will address non-destructive evaluation (NDE) with a focus on applications within the manufacturing industry. The applications addressed will mostly focus on inspection of weldments and additively manufactured metal parts. After completing the course, a student is expected to be able to describe methods and procedures for common non-destructive evaluation. The understanding should be at such a level that the student can select and describe limitations of these methods and procedures, as well as perform laboratory NDE in the form of experiments and simulations and interpret the results.