Departamento

Departamento de Ingeniería Civil

Producción Científica

Proyectos

  • 2012-2018 (6 Years) – Ideas: The European Research Council (ERC) – FP7; Mastering the computational challenges in numerical modeling and optimum design of CNT reinforced composites [MASTER]
  • 2015-2017, SECRETE, Erasmus Mundus, EU; Ph.D. Title: Time dependent vulnerability analysis for existing RC frame building
  • 2016-2018, Nonlinear FEA of Soil-Structure-Interaction Effects on RC Shear-Wall Structures.
  • 2017-2018, Optimum Design of CFRP Retrofitting System of Reinforced Concrete Multistory Buildings

Publicaciones

International Refereed Scientific Journals

  1. Mourlas, M. Papadrakakis and G. Markou (2017), “A Computationally Efficient Model for the Cyclic Behavior of Reinforced Concrete Structural Members”, Engineering Structures, 141, pp. 97–125.
  2. Markou and M. AlHamaydeh (2017), “3D Finite Element Modeling of GFRP-Reinforced Concrete Deep Beams without Shear Reinforcement”, International Journal of Computational Methods, International Journal of Computational Methods, 15(1), pp. 1-35.
  3. Savic and G. Markou, (2017), “Setting the internal quality process at the mid-size higher education institution in the UAE”, Submitted for Publication.
  4. Markou, Ch. Mourlas and M. Papadrakakis (2017), “A Hybrid Finite Element Model (HYMOD) for the Non-Linear 3D Cyclic Simulation of RC Structures”, Submitted for Publication.
  5. Markou, Ch. Mourlas and M. Papadrakakis (2017), “Non-Linear 3D Cyclic Simulation of a Full-Scale 4-Storey Retrofitted RC Structure Through the Use of a Hybrid Finite Element Model (HYMOD)”, Submitted for Publication.
  6. Nicolaides and G. Markou, “Modelling the Flexural Behaviour of Fibre Reinforced Concrete Beams with FEM”, Engineering Structures, 99, pp. 653–665, 2015.
  7. Markou, R. Sabouni, F. Suleiman and R. El-Chouli, “Full-Scale Modeling of the Soil-Structure Interaction Problem Through the use of Hybrid Models (HYMOD)”, International Journal of Current Engineering and Technology, 5 (2), 2015.
  8. Markou, “Computational performance of an embedded reinforcement mesh generation method for large-scale RC simulations”, International Journal of Computational Methods, 12 (3), 2015.
  9. Markou and M. Papadrakakis, “A Simplified and Efficient Hybrid Finite Element Model (HYMOD) for Non-Linear 3D Simulation of RC Structures”, Engineering Computations, 32(5), pp. 1477-1524, 2015.
  10. Markou and M. Papadrakakis, “Accurate and Computationally Efficient 3D Finite Element Modeling of RC Structures”, Computers & Concrete, 12 (4), pp. 443-498, 2013.
  11. Markou, “Embedded reinforcement mesh generation method for large-scale RC simulations: Case study”, AHU Journal of Engineering and Applied Sciences, 5 (1), pp. 23-42, 2013.
  12. Markou and M. Papadrakakis, “An Efficient Generations Method of Embedded Reinforcement in Hexahedral Elements for Reinforced Concrete Simulations”, Advances in Engineering Software ADES, 45 (1), pp. 175-187, 2012.
  13. Markou and M. Papadrakakis, “Modeling of Reinforced Concrete Structures with 3d detailed finite element models”, AHU. Journal of Engineering and Applied Sciences, 4 (2), pp 47-63, 2012.

International Refereed Conferences

  1. Christos Mourlas, George Markou and Manolis Papadrakakis, “3D nonlinear constitutive modeling for dynamic analysis of reinforced concrete structural members”, 10th International Conference on Structural Dynamics, EURODYN, 10-13 September 2017, Sapienza Universita di Roma, Roma, Italy.
  2. Christos Mourlas, Manolis Papadrakakis and George Markou, “Computationally efficient and accurate modeling of the cyclic behavior of reinforced concrete structural members under ultimate limit state conditions”, 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, 15-17 June 2017, Rhodes Island, Greece.
  3. Mohamod, G. Markou and M. AlHamaydeh, “Nonlinear FEA of Soil-Structure-Interaction Effects on RC Shear Wall Structures”, 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, 15-17 June 2017, Rhodes Island, Greece.
  4. Christos Mourlas, Manolis Papadrakakis and George Markou, “Accurate and Efficient Modeling for the Cyclic Behavior of RC Structural Members”, ECCOMAS Congress, VII European Congress on Computational Methods in Applied Sciences and Engineering, Crete Island, Greece, 5–10 June 2016.
  5. Hussein Bark, George Markou, Christos Mourlas and Manolis Papadrakakis, “SEISMIC ASSESSMENT OF A 5-STOREY RETROFITTED RC BUILDING”, ECCOMAS Congress, VII European Congress on Computational Methods in Applied Sciences and Engineering, Crete Island, Greece, 5–10 June 2016.
  6. Markou, “Numerical Investigation of a 3D Detailed Limit-State Simulation of a Full-Scale RC Bridge”, SEECCM III, 3rd South-East European Conference on Computational Mechanics, Kos Island, Greece, 12–14 June 2013.
  7. Markou, “Generating Embedded Rebar Elements for Large-Scale RC Models”, SEECCM III, 3rd South-East European Conference on Computational Mechanics, Kos Island, Greece, 12–14 June 2013.

Líneas de Investigación

  • Modeling of Reinforced Concrete (RC) structures through the use of 3D detailed finite elements.
  • Mesh generation techniques of embedded rebar elements for the modeling of reinforcement inside reinforced concrete structures.
  • Mesh generation techniques of embedded rebar elements for large scale-models.
  • Hybrid modeling (HYMOD) of structures.
  • Seismic assessment of reinforced concrete bridges through the use 3D detailed modeling and push over analyses.
  • Programming and software development of Finite Element Analysis algorithms.
  • Fiber reinforced polymer (FRP) modeling through the use of FEM.
  • Soil-Structure Interaction modeling and analysis with 3D detailed FE and HYMOD. Monotonic and cyclic analyses.
  • Seismic assessment of reinforced concrete bridges through the use 3D detailed modeling and push over analyses.
  • 3D detailed modeling of A-C-GFRP deep beams.
  • Accurate and efficient modeling of the cyclic behavior of RC structures.
  • Development of design formulae for FRP reinforced concrete deep beams through the use of experimental and numerical investigations.
  • Mesh decomposition methods and parallel solution algorithmic development.
  • Large-Scale Dynamic Analysis of structures through 3D detailed FEM simulations.
  • Modeling and design of retrofitted RC structures.
  • Dynamic Mesh updating techniques for solving fluid-structure interaction problems.