Frank van Berlo
Department / Institute
Group
RESEARCH PROFILE
Frank van Berlo is a doctoral candidate in the Polymer Technology group of Eindhoven University of Technology (TU/e) where research is conducted in the broad area of Polymer Technology, i.e. the industrial arts of manufacturing of polymer-based products. Through both experimental studies and numerical simulations, van Berlo aims to understand the different aspects of Polymer Technology. Topics van Berlo is working on are characterization of mechanical properties of polymers and developing 3D printing methods using polymer powders. His main field of research is on the development of a new high-temperature Selective Laser Sintering (SLS) 3D printer. The main goal is to obtain fundamental insight this manufacturing technique and to optimize the 3D printing process using polymer materials.
As a material scientist I believe that a true understanding of materials is required to form well-founded designs.
ACADEMIC BACKGROUND
Frank (Petrus Adrianus) van Berlo obtained his bachelor’s degree in Mechanical Engineering at Eindhoven University of Technology in 2017. Thereafter he obtained his master’s degree in Mechanical Engineering at Eindhoven University of Technology in 2019, working on numerical simulations of flow and structure formation of polymers in a filament stretching extensional rheometer. In November 2019 he started as a doctoral candidate in the Polymer Technology group at Eindhoven University of Technology chaired by full professor Patrick Anderson.
Recent Publications
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Towards a universal shear correction factor in filament stretching rheometry
Rheologica Acta (2021) -
Torsional fracture of viscoelastic liquid bridges
Proceedings of the National Academy of Sciences of the United States of America (PNAS) (2021) -
A numerical study of extensional flow-induced crystallization in filament stretching rheometry
Polymer Crystallization (2021) -
Modeling the flow of nonlinear viscoelastic polymers in a filament stretching rheometer
(2020)
Ancillary Activities
No ancillary activities