
Thesis projects are part of SSABs recruitment process. This opportunity allows you to get to know us at the same time that we get to know you. We publish open thesis opportunities on Job opportunities page. Read here three examples of a student's thesis story.

Why did you choose to write your degree project at SSAB?
First and foremost, I think it’s a very interesting organization that is also in a challenging phase of its journey where a lot is happening. I study product and process development at Mälardalen University and I am passionate about development in sustainability. I want to be part of this work going forward, and then saw SSAB as a very interesting organization.
Describe the topic of your thesis.
I’m creating flow simulation for Härdlinje 2, where I’m investigating the opportunities and challenges involved, and how the digital model can be further developed towards a digital twin of the entire line. This could make it easier to make decisions, create investment materials and make changes in the process.
What have you learned so far while writing your dissertation?
I’ve gained a much greater understanding of the current manufacturing process, where there is a risk of potential bottlenecks and queues. I’ve also begun to see how we, together with the development of Industry 4.0, could work further towards a more automatic process where, with the help of historical data, we can identify errors before they occur.
What has been the most challenging part so far?
I would probably say to delimit the project. Digitization and development of more digital tools in the manufacturing industry is very interesting.
Who is supporting you during the dissertation?
I get invaluable help above all from my supervisor at SSAB, but also the whole work team is very helpful and supportive, I really get to feel like one in the group. I also have a supervisor from the university, who helps me follow the school's requirements for the degree project.
What plans do you have for the future?
I want to continue working with development and digitization, and to be involved and contribute to a more sustainable society.
Olli Oja, MSc (Tech), a product development engineer at SSAB Hämeenlinna, investigated the Correlation between the Microstructure and Mechanical Properties of Intercritically Annealed Advanced High-Strength Steels in his doctoral dissertation.
The research showed that the composition and heat treatment combinations of certain high-strength, cold-formable steels can be used to balance the microstructure and formability properties for different purposes. The results led to a formability map which indicates the link between the formability type and the microstructure.

"My research focuses on silicon-and aluminum-alloyed high-strength, cold-formable steels, which are used particularly by
the automotive industry. The steels examined in the research are part of the advanced high-strength steels (AHSS) family.
The findings provide guidelines for the development of our future products and next generation steels," he adds.
You can read the doctoral dissertation here https://urn.fi/URN:ISBN:978-952-03-2455-1
How did you end up doing your master thesis for SSAB?
I worked as a Development Engineer Trainee for the summer. Afterwards I was offered a possibility to write my Master Thesis for SSAB. I have studied process metallurgy at the University of Oulu, so SSAB was a natural choice.
Describe the subject of your thesis.
In my thesis I researched if it is possible to use coke fines and charcoal in coal blend and how they will affect the quality of the coke. I made small-scale coking experiments with different kinds of coal blends. Using coke fines in coal blend would raise the recycling rate which is indeed a good thing.
What steps did you do during this thesis writing process?
I learned a lot about the coking process and the phenomena of it. After making the research plan I did coking experiments and during the writing process I saw how the theory works in practice.
What was the hardest or most difficult part of the thesis process?
My subject was extensive, which made this a challenging project. Also staying on schedule was very important.
Who helped you and who did you work with?
My supervisors helped me at SSAB and at the university. I also worked with laboratory employees at the research center and the coking laboratory.
What are you future plans?
First I will graduate and afterwards I hope to I find a job!


When Anthony Maldonado started his internship at SSAB, he stepped into a summer of learning and developing valuable skills. As a Mechanical Engineering student at Iowa State University, he is spending his summer tackling real engineering challenges.
So far, Anthony has learned how to solve engineering problems with practical solutions and gained confidence in reading technical drawings. He also gives thanks to the community at SSAB where everyone is always more than willing to help.
Although he wasn’t sure what to expect going in, he’s valuing the opportunity to be involved in projects from start to finish. “I appreciate this as it gives me insight into what engineers contribute at every stage of a project.”
In the future, Anthony dreams of a position where he can focus on the performance side of automotive design. But for now, he’s enjoying the fascinating world of steel.
After job shadowing two employees at SSAB, Katherine knew that a career in Information and Operational Technology was something she wanted to do. She watched the employees walk to the mill and troubleshoot a camera, and she was sold.
Now Katherine is enjoying her summer internship helping manage the network connection of devices and troubleshooting problems that arise both in the mill side and in the administration buildings.
“I’ve enjoyed the learning experiences that come along with the position and the opportunities to work with other departments.”


Since August 2024, Justin Nguyen has played a key role at SSAB as a Mechanical Design Engineer developing systems and equipment that support steel production and structural applications.
Justin started his career after earning a mechanical engineering degree at the University of South Alabama, from where he got a strong foundation in precision manufacturing and process optimization. Now, Justin’s favorite part of his job is 3D modeling and having the potential to see his work in the real world.
To stay sharp, Justin combines hands-on experience with continuous learning. “On the job, I regularly collaborate with production and maintenance teams to aid my design to be more practical and reliable.”
After work, he loves watching reality TV and going to the gym: a perfect combination to relax the mind and the body.