Dr.-Ing. John Hanna

• Structural Analysis and Mechanics
• Finite Element Method (FEM) and eXtended Finite Element Method (XFEM)
• Fracture Modeling and Cohesive Zone Model (CZM)
• Concrete Structures and Self-Healing Concrete (SHC)
• Boundary Element Method (BEM)

Hanna, J.: Computational Fracture Modeling and Design of Encapsulation-Based Self-Healing Concrete Using XFEM and Cohesive Surface Technique. Dissertation, Bauhaus Universität Weimar. 2022. 10.25643/bauhaus-universitaet.4746

Hanna, J.: Self-Healing Concrete Techniques and Technologies and Applications. Recent Progress in Materials 6(1). 2024; 006. 10.21926/rpm.2401006

Hanna, J.; Elamin, A.: Computational fracture modeling for effects of healed crack length and interfacial cohesive properties in self-healing concrete using XFEM and cohesive surface technique. Computation 11(7). 2023; 142. 10.3390/computation11070142

Hanna, J.: Accurate computational modelling for impacts of microcapsule size and interfacial fracture properties on the fracture of self-healing concrete. International Journal of Hydromechatronics 5(4). 2022; 397-415. 10.1504/IJHM.2022.127036

Hanna, J.: Computational Modelling for the Effects of Capsular Clustering on Fracture of Encapsulation-Based Self-Healing Concrete Using XFEM and Cohesive Surface Technique. Applied Sciences 12(10). 2022; 5112. 10.3390/app12105112

 

Hanna, J.: The Effects of Fracture Energy on the Interfacial Strength of Self-Healing Concrete. 28th International Workshop on Intelligent Computing in Engineering (EG-ICE 2021), Berlin, Germany, June 30th, 2021 -July 2nd, 2021. https://depositonce.tu-berlin.de/items/2b47a17c-284b-4795-a2c9-8bda8dc50a30

Hanna, J.: Computational Modeling for Effect of Crack Healing Pattern in Self-Healing Concrete. Conference Proceedings of Data Driven Computing and Machine Learning in Engineering (DACOMA-19). Advances in Computational Mechanics. Volume 4, 2019. ISSN: 1940-5820 (printed). ISSN: 1940-5839 (online abstract). China, September 2019. https://www.techscience.com/info/acm-ddcml