free web templates

Written Research Work

Peer-reviewed Journal Papers
  1. Pnevmatikos, N., Konstandakopoulou, F., Papavasileiou, G., Papagiannopoulos, G., & Broukos, P. (2021). The effect of rotational component of earthquake excitation on the response of steel structures. ce/papers, 4(2-4), 1887-1892.
  2. Kamperidis, V. C., Papavasileiou, G. S., Kamaris, G. S., & Vasdravellis, G. (2020). Seismic collapse of self-centering steel MRFs with different column base structural properties. Journal of Constructional Steel Research, 175(1), 106364. DOI: 10.1016/j.jcsr.2020.106364
  3. Pnevmatikos, N. G., Konstandakopoulou, F. D., Blachowski, B., Papavasileiou, G. S., & Broukos, P. (2020). Multifractal analysis and wavelet leaders for structural damage detection. Soil Dynamics and Earthquake Engineering, 139, 106328. DOI: 10.1016/j.soildyn.2020.106328
  4. Papavasileiou, G.S., Charmpis, D.C., & Lagaros, N.D. (2020). Optimized seismic retrofit of steel-concrete composite buildings. Engineering Structures, 213, 110573. DOI: 10.1016/j.engstruct.2020.110573
  5. Pnevmatikos N.G., Konstandakopoulou F.D., Papagiannopoulos G.A., Hatzigeorgiou G.D., Papavasileiou G.S. (2020). Influence of earthquake rotational components on the seismic safety of steel structures. Vibration 2020, 3, 42-50. DOI: 10.3390/vibration3010005
  6. Papavasileiou, G.S. and Charmpis, D.C. (2020). Earthquake-resistant buildings with steel or composite columns: comparative assessment using structural optimization. Journal of Building Engineering, 27, 100988. DOI: 10.1016/j.jobe.2019.100988
  7. Pnevmatikos, N.G., Papavasileiou G.S., Konstandakopoulou, F.D. & Papagiannopoulos, G.A. (2019). Influence of Rotational Component of Earthquake Excitation to the Response of Steel Slender Frame, Materials Science Forum, 968, 294-300. DOI:10.4028/www.scientific.net/MSF.968.294
  8. Megalooikonomou K.G. & Papavasileiou, G.S. (2019). Analytical Stress-Strain Model for FRP-Confined Rectangular RC Columns. Frontiers in Built Environment – Earthquake Engineering, 5, 39. DOI: 10.3389/fbuil.2019.00039
  9. Pnevmatikos, N.G., Papagiannopoulos, G.A. & Papavasileiou, G.S. (2019). Fragility curves of complex concrete/steel frames subjected to seismic excitation. Soil Dynamics and Earthquake Engineering, 116, 709-713. DOI: 10.1016/j.soildyn.2018.09.037
  10. Papavasileiou, G.S. and Pnevmatikos, N.G. (2017). Optimized design of steel buildings against earthquake and progressive collapse using cables. International Journal of Progressive Sciences and Technologies, 6(1), 213-220. 
  11. Papavasileiou, G.S. and Pnevmatikos, N.G. (2017). The cost of retrofitting steel-concrete composite buildings against progressive collapse with steel cables. International Journal of Progressive Sciences and Technologies, 6(1), 103-115. 
  12. Papavasileiou, G.S. and Pnevmatikos, N.G. (2017). Optimized retrofit of steel-concrete composite buildings against earthquake and progressive collapse using steel cables. Scientific Buletin of the School of Science and Technology, 3(1). 
  13. Papavasileiou, G.S. (2017). Analytical framework for the substitution of steel-concrete composite columns with equivalent steel columns in structural design. ESR Journal, 2(1). 
  14. Papavasileiou, G.S. and Charmpis, D.C. (2016). Seismic design optimization of multi–storey steel–concrete composite buildings. Computers & Structures, 170, 49-61.  DOI: http://dx.doi.org/10.1016/j.compstruc.2016.03.010
Articles in Technical Journals
  1. Hatzigeorgiou, G. D., Papagiannopoulos, G. A., Konstandakopoulou, F. D., Papavasileiou, G. S., Pnevmatikos, N. G. (2020). Climate change – natural hazards – engineering structures. How ready are we? Construction site issues, 231(1), pp. 35-37. http://www.tpressmagazines.gr/fc/ergotaxiaka/07.08.2020/mobile/html5forpc.html
Peer-reviewed Conference Papers
  1. Alogdianakis, F., Megalooikonomou, K.G., & Papavasileiou, G.S. (2021). Comparative non-structural vulnerability assessment methods for historical residential masonry buildings. In Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  2. Pnevmatikos, N.G., Hatzigeorgiou, G.D., Papavasileiou G.S., Papagiannopoulos, G.A. & Broukos, P. (2020). The effect of rotational component of earthquake excitation on the response of steel structures. In Proceedings of the 9th European Conference on Steel and Composite Structures (Eurosteel 2020).
  3. Pnevmatikos, N.G., Papavasileiou G.S., Konstandakopoulou, F.D. & Papagiannopoulos, G.A. (2019). Analysis of a steel structure considering the rotational and translational components of the earthquake excitation. In Proceedings of the 4th Hellenic National Conference on Earthquake Engineering and Technical Seismology.
  4. Megalooikonomou K.G. & Papavasileiou G.S. (2019). Cyclic Material Model for Rectangular Concrete Sections Confined with FRP Wraps in OpenSEES Software. In Proceedings of the 4th Hellenic National Conference on Earthquake Engineering and Technical Seismology.
  5. Papavasileiou G.S., & Pnevmatikos N.G. (2019). Assessment of the Effect of Steel Cables used as a Retrofit Method Against Progressive Collapse in the Seismic Performance of Steel Buildings. In Proceedings of the 4th Hellenic National Conference on Earthquake Engineering and Technical Seismology.
  6. Pnevmatikos, N.G., Papavasileiou G.S., Konstandakopoulou, F.D. & Papagiannopoulos, G.A. (2019). Influence of rotational component of earthquake excitation to the response of steel slender frame. In Proceedings of the Actual Problems of Engineering Mechanics (pp. 394-397).
  7. Papavasileiou G.S., & Pnevmatikos N.G. (2019). The seismic performance of steel buildings retrofitted with steel cables against progressive collapse. In Proceedings of the 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  8. Pnevmatikos N.G., Blachowski B. & Papavasileiou G.S. (2019). Damage detection of mixed concrete/steel frame subjected to earthquake excitation. In Proceedings of the 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  9. Megalooikonomou K.G. & Papavasileiou G.S. (2019). Modeling of FRP-Confinement of Large-Scale Rectangular RC Columns. In Proceedings of the 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  10. Papavasileiou, G.S. and Pnevmatikos, N. (2018). Optimized retrofit of steel-concrete composite buildings against progressive collapse using steel cables. In Proceedings of the 16th European Conference on Earthquake Engineering.
  11. Papavasileiou, G.S. and Charmpis, D.C. (2017). Retrofit of Seismically Designed Steel-Concrete Composite Structures to Withstand Progressive Collapse. In Proceedings of the2nd International Conference on Recent Advances in Nonlinear Modelling - Design and Rehabilitation of Structures 
  12. Papavasileiou, G.S. and Pnevmatikos, N.G. (2017). Retrofit of Steel Buildings against Progressive Collapse using Steel Cables, In Proceedings of the 2nd International Conference on Recent Advances in Nonlinear Modelling - Design and Rehabilitation of Structures 
  13. Papavasileiou, G.S. (2017). Progressive collapse assessment of steel structures under fire. In Proceedings of the 9th National Conference on Steel Structures. 
  14. Papavasileiou, G.S. (2017). Assessment of the effectiveness of cabling system configuration in retrofitting steel-concrete composite buildings. In Proceedings of the 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  15. Papavasileiou, G.S. and Charmpis, D.C. (2015). Optimized retrofit of seismically designed buildings to withstand progressive collapse. In Proceedings of the 5th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering. 
  16. Papavasileiou, G.S. and Megalooikonomou, K.G. (2015). Numerical simulation of FRP-confined circular bridge piers using OpenSEES. In Proceedings of the OpenSEES Days Italy.
  17. Charmpis, D.C. and Papavasileiou, G.S. (2014). Designing against earthquake and progressive collapse: A structural optimization approach applied to composite steel-concrete buildings. In Proceedings of the Eurosteel 2014. 
  18. Papavasileiou G.S. and Charmpis, D.C. (2014). Enhancing the Progressive Collapse Resistance of Seismically Designed Steel-Concrete Composite Buildings. In Proceedings of the 8th National Conference on Steel Structures. 
  19. Papavasileiou G.S. (2014). Considerations on the Progressive Collapse Design of Structures. In Proceedings of the New Challenges in the World Science: Young Scientists’ Joint Approaches.
  20. Papavasileiou, G.S., Nikolaou, N. and Charmpis, D.C. (2013). Comparative assessment of buildings with pure steel or steel-concrete composite columns using structural design optimization. In Proceedings of the 4th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
  21. Papavasileiou, G.S. (2013). Current and future trends in structural engineering design. In Proceedings of the 1st International Baku Forum: Challenges in the European Area.
  22. Papavasileiou, G.S. and Charmpis, D.C. (2012). Design optimization of steel-concrete composite structures with requirements on progressive collapse resistance. In Proceedings of the 15th World Conference on Earthquake Engineering.
  23. Papavasileiou, G.S. and Charmpis, D.C. (2012). Maximizing the collapse resistance of composite steel-concrete structures. In Proceedings of the 10th World Congress on Computational Mechanics.
  24. Papavasileiou, G.S., Charmpis, D.C. and Lagaros, N.D. (2011). Optimized seismic retrofit of steel-concrete composite frames. In Proceedings of the 3rd ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (pp. 4573-4586).
  25. Karalis, T., Karali, N., Papavasileiou, G.S., Georgiadou, M. and Trigousi, C. (2006). The Coupling of Maliakos. In Proceedings of the 5th National Conference on Geotechnical and Geoenvironmental Engineering. [in Greek]
Conference Papers
  1. Papavasileiou G.S. (2019). Retrofit of steel and steel-concrete composite buildings against progressive collapse. In Staff Conference 2019 – Our Sustainable Future. Inverness College UHI.
Book Chapters
  1. Papavasileiou, G.S. and Vourlioti, E.S. (2012). Trendy Science. In The Concept of Good Governance, Sustainable Development and the Education of the Future Generation of Scientists (pp. 31-61). Budapest, Hungary
Books
  1. Papavasileiou, G.S. (2017). Finite Elements in Structures. Larissa, Greece: University of Applied Sciences of Thessaly. (Course Book prepared for the purposes of the undergraduate course “Finite Elements in Structures” at the Department of Mechanical Engineering)
  2. Papavasileiou, G.S. (2016). Design of Steel Structures. Larissa, Greece: University of Appied Sciences of Thessaly. (Course Book prepared for the purposes of the undergraduate course “Steel Structures” at the Department of Mechanical Engineering)
Theses
  1. Papavasileiou, G.S. (2017). Optimized design and retrofit of steel and steel-concrete composite buildings against earthquake and progressive collapse using cables. Athens, Greece: Athens University of Applied Sciences. (Postdoctotral Thesis)
  2. Papavasileiou, G.S. (2017). Optimized retrofit of steel-concrete composite buildings against earthquake and progressive collapse using steel cables. Patras, Greece: Hellenic Open University. (MSc. Thesis) [in Greek]
  3. Papavasileiou, G.S. (2013). Optimized seismic design and retrofit of collapse-resistant steel-concrete composite buildings. Nicosia, Cyprus: University of Cyprus. (PhD Thesis)
  4. Papavasileiou, G.S. (2008). Non linear dynamic analysis of a reinforced concrete frame using friction dampers. Democritus University of Thrace, Xanthi, Greece. (MSc. Thesis) [in Greek]
  5. Papavasileiou, G.S. (2007). Simulation of steel and concrete composite columns with equivalent pure steel columns. Democritus University of Thrace, Xanthi, Greece. (Diploma Thesis) [in Greek]
Download Publications List
© Copyright 2022 G.S.P. - All Rights Reserved