Making materials durable by unraveling deformation and failure at the microscale
Our research group focuses on experimental-numerical micromechanics to unravel the micromechanical behavior of materials and material systems in order to achieve superieur mechanical performance and durability at the scale of application. This is done in two ways:
Read moreResearch themes
Meet some of our Researchers
Recent Publications
Our most recent peer reviewed publications
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Influence of the printing strategy on the microstructure and mechanical properties of thick-walled wire arc additive manufactured stainless steels
Journal of Materials Processing Technology (2024) -
Towards a predictive understanding of direct ink writing of graphene-based inks
Applied Materials Today (2024) -
An integrated experimental-numerical study of martensite/ferrite interface damage initiation in dual-phase steels
Scripta Materialia (2024) -
Full-field hygroscopic characterization of paper inter-fiber bonds and the implications on network hygro-expansivity
Cellulose (2024) -
A quasi-2D integrated experimental–numerical approach to high-fidelity mechanical analysis of metallic microstructures
Acta Materialia (2024)
Contact
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Visiting address
Gemini South 4.122 (Building 15)Groene Loper5612 AP EindhovenNetherlands -
Visiting address
Gemini South 4.122 (Building 15)Groene Loper5612 AP EindhovenNetherlands -
Postal address
Department of Mechanical EngineeringP.O. Box 5135600 MB EindhovenNetherlands -
Postal address
Department of Mechanical EngineeringP.O. Box 5135600 MB EindhovenNetherlands -
Secretarya.j.j.t.litsenburg@ tue.nl
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Teamleadj.p.m.hoefnagels@ tue.nl