We are thrilled to announce Tommaso Sartor as the newest member of our research department!

[Translate to English:] Portraitfoto Tommaso Sartor

Tommaso studied mechanical engineering at Scuola Superiore Sant'Anna and University of Pisa, he completed his undergraduate studies with a master thesis on Non-Prehensile Manipulation. He then continued to develop his knowledge in control and optimization holding research scientist positions at University of Freiburg and KU Leuven. During this time, he focused on the implementation and the application of numerical optimal control methods in different areas like wind energy and robotics.
Tommaso also had experienced working in industry as Robotics Software Engineer for the company Aeolus and as freelancer in software development for augmented reality and scientific computing.

Outside of his professional life, Tommaso enjoys climbing, cycling, and reading about a wide range of topics.

“I am truly grateful for the opportunity to join the research unit of structural concrete at the institute of structural engineering. It is exciting to be part of the upcoming projects where knowledge from industrial and software engineering complement each other. I am looking forward to tackle new challenges contributing to advance the field of civil engineering” 

About us

Structural concrete plays a pivotal role in modern society, serving as a fundamental material for over a century in the construction and development of urban infrastructure. Our research group is doing cutting-edge research on existing and newly built structures to transform reinforced concrete from the dull mass material it is used to be to an ingenious construction method that efficiently harnesses emerging technologies, prolongs the service life and makes sustainable use of our natural resources. One core focus of the group activities revolves around the digital fabrication of concrete structures from file to factory using advanced analytical methods and robotic tools. The group is also at the forefront of research when it comes to textile-reinforced structures. Through the exploitation of tailored yarn placement, the boundaries of traditional reinforcement concepts are leveraged for the creation of bespoke structures that are inspired by nature. A further key area of research is the development of innovative bridge and tunnel construction methods. The research group also operates a state-of-the-art laboratory in which the developed models, structural elements and construction methods can be tested for their applicability.

Group Picture of the institute

Group photo of the Research Unit Structural Concrete 2024 © Photographer Christian Husar