2022 - Research.com Engineering and Technology in Italy Leader Award
Structural engineering, Composite material, Fibre-reinforced plastic, Geotechnical engineering and Reinforced concrete are his primary areas of study. His studies deal with areas such as Ductility and Brittleness as well as Structural engineering. His work in the fields of Composite material, such as Bending, Shear, Cement and Mortar, intersects with other areas such as Bond.
His Fibre-reinforced plastic research integrates issues from Composite construction, Compressive strength, Material properties, Rebar and Glass fiber. His Geotechnical engineering study integrates concerns from other disciplines, such as Strain rate, Parametric statistics, Deformation and Buckling. Gaetano Manfredi has researched Reinforced concrete in several fields, including Slip, Building code, Precast concrete and Constitutive equation.
His primary areas of investigation include Structural engineering, Fibre-reinforced plastic, Composite material, Reinforced concrete and Geotechnical engineering. Gaetano Manfredi frequently studies issues relating to Ductility and Structural engineering. His Fibre-reinforced plastic study combines topics from a wide range of disciplines, such as Flexural strength, Seismic retrofit, Retrofitting, Glass fiber and Reinforcement.
In general Composite material, his work in Ultimate tensile strength, Durability, Composite number and Concrete cover is often linked to Bond linking many areas of study. His work in Reinforced concrete covers topics such as Forensic engineering which are related to areas like Precast concrete. His primary area of study in Geotechnical engineering is in the field of Seismic loading.
Gaetano Manfredi spends much of his time researching Structural engineering, Forensic engineering, Civil engineering, Reinforced concrete and Masonry. In his study, L aquila is strongly linked to Geotechnical engineering, which falls under the umbrella field of Structural engineering. The various areas that Gaetano Manfredi examines in his Forensic engineering study include Structural geology and Full scale.
His Civil engineering research includes themes of Estimation and Environmental resource management. His Reinforced concrete research is multidisciplinary, relying on both Calibration and Scale. His Masonry study deals with Infill intersecting with Rc frames.
Gaetano Manfredi mostly deals with Structural engineering, Forensic engineering, Masonry, Reinforced concrete and Fibre-reinforced plastic. His Structural engineering research incorporates elements of Geotechnical engineering, Beam column and Parametric statistics. The Forensic engineering study which covers L aquila that intersects with Demolition and Seismic damage.
His study looks at the relationship between Masonry and topics such as Earthquake shaking table, which overlap with Vault, Barrel vault and Full scale. The concepts of his Reinforced concrete study are interwoven with issues in Scale and Corrosion. He focuses mostly in the field of Fibre-reinforced plastic, narrowing it down to topics relating to Seismic retrofit and, in certain cases, Brittleness.
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Behavior and Modeling of Bond of FRP Rebars to Concrete
E. Cosenza;G. Manfredi;Roberto Realfonzo.
Journal of Composites for Construction (1997)
The use of damage functionals in earthquake engineering: A comparison between different methods
Edoardo Cosenza;Gaetano Manfredi;Roberto Ramasco.
Earthquake Engineering & Structural Dynamics (1993)
Evaluation of seismic energy demand
Earthquake Engineering & Structural Dynamics (2001)
Experimental In-Plane Behavior of Tuff Masonry Strengthened with Cementitious Matrix–Grid Composites
A. Prota;G. Marcari;G. Fabbrocino;G. Manfredi.
Journal of Composites for Construction (2006)
Ground motion duration effects on nonlinear seismic response
Iunio Iervolino;Gaetano Manfredi;Edoardo Cosenza.
Earthquake Engineering & Structural Dynamics (2006)
In-plane shear performance of masonry panels strengthened with FRP
Giancarlo Marcari;Gaetano Manfredi;Andrea Prota;Marisa Pecce.
Composites Part B-engineering (2007)
Seismic behavior of a full-scale RC frame repaired using CFRP laminates
A. Balsamo;A. Colombo;G. Manfredi;P. Negro.
Engineering Structures (2005)
Damage indices and damage measures
Edoardo Cosenza;Gaetano Manfredi.
Progress in Structural Engineering and Materials (2000)
Bond Efficiency of EBR and NSM FRP Systems for Strengthening Concrete Members
A. Bilotta;F. Ceroni;M. Di Ludovico;E. Nigro.
Journal of Composites for Construction (2011)
The Emilia Earthquake: Seismic Performance of Precast Reinforced Concrete Buildings
Gennaro Magliulo;Marianna Ercolino;Crescenzo Petrone;Orsola Coppola.
Earthquake Spectra (2014)
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