Items where Author is "Papavasileiou, Georgios"
Number of items: 13.
PNEVMATIKOS, Nikos, KONSTANDAKOPOULOU, Foteini, PAPAVASILEIOU, Georgios, PAPAGIANNOPOULOS, George and BROUKOS, Pantelis
(2021).
The effect of rotational component of earthquake excitation on the response of steel structures.
ce/papers, 4 (2-4), 1887-1892.
[Article]
PNEVMATIKOS, N, KONSTANDAKOPOULOU, F, BLACHOWSKI, B, PAPAVASILEIOU, Georgios and BROUKOS, P
(2020).
Multifractal analysis and wavelet leaders for structural damage detection of structures subjected to earthquake excitation.
Soil Dynamics and Earthquake Engineering, 139: 106328.
[Article]
KAMPERIDIS, Vasileios C, PAPAVASILEIOU, Georgios, KAMARIS, George S and VASDRAVELLIS, George
(2020).
Seismic collapse of self-centering steel MRFs with different column base structural properties.
Journal of Constructional Steel Research, 175: 106364.
[Article]
PAPAVASILEIOU, Georgios, CHARMPIS, Dimos C and LAGAROS, Nikos D
(2020).
Optimized seismic retrofit of steel-concrete composite buildings.
Engineering Structures, 213: 110573.
[Article]
PNEVMATIKOS, Nikos, KONSTANDAKOPOULOU, Foteini, PAPAGIANNOPOULOS, George, HATZIGEORGIOU, George and PAPAVASILEIOU, Georgios
(2020).
Influence of Earthquake Rotational Components on the Seismic Safety of Steel Structures.
Vibration, 3 (1), 42-50.
[Article]
PAPAVASILEIOU, Georgios and CHARMPIS, Dimos C.
(2020).
Earthquake-resistant buildings with steel or composite columns: Comparative assessment using structural optimization.
Journal of Building Engineering, 27: 100988.
[Article]
MEGALOOIKONOMOU, Konstantinos G and PAPAVASILEIOU, Georgios
(2019).
Analytical Stress-Strain Model for FRP-Confined Rectangular RC Columns.
Frontiers in Built Environment, 5: 39.
[Article]
PNEVMATIKOS, Nikos G, PAPAGIANNOPOULOS, George A and PAPAVASILEIOU, Georgios
(2019).
Fragility curves for mixed concrete/steel frames subjected to seismic excitation.
Soil Dynamics and Earthquake Engineering, 116, 709-713.
[Article]
PAPAVASILEIOU, Georgios and PNEVMATIKOS, Nikos
(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.
[Article]
PAPAVASILEIOU, Georgios and PNEVMATIKOS, Nikos
(2017).
Optimized design of steel buildings against earthquake and progressive collapse using cables.
International Journal of Progressive Sciences and Technologies, 6 (1), 213-220.
[Article]
PAPAVASILEIOU, Georgios
(2017).
Assessment of the effectiveness of cabling system configuration in retrofitting steel-concrete composite buildings.
In: PAPADRAKAKIS, M. and FRAGIADAKIS, M., (eds.)
COMPDYN 2017 : 6th ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering.
Institute of Structural Analysis and Antiseismic Research School of Civil Engineering National Technical University of Athens (NTUA) Greece, 2777-2791.
[Book Section]
PAPAVASILEIOU, Georgios
(2017).
Analytical framework for the substitution of steel-concrete composite columns with equivalent steel columns in structural design.
ESR Journal, 2 (1).
[Article]
PAPAVASILEIOU, Georgios and CHARMPIS, Dimos C
(2016).
Seismic design optimization of multi–storey steel–concrete composite buildings.
Computers & Structures, 170, 49-61.
[Article]