The scientist’s investigation covers issues in Structural engineering, Composite material, Cracking, Solid mechanics and Fiber-reinforced concrete. His work deals with themes such as Material properties and Computer simulation, which intersect with Structural engineering. His Superplasticizer, Strength of materials and Silica fume study, which is part of a larger body of work in Composite material, is frequently linked to Orientation and Anisotropy, bridging the gap between disciplines.
His research investigates the link between Cracking and topics such as Reinforced concrete that cross with problems in Hinge. His work in Solid mechanics addresses issues such as Fracture mechanics, which are connected to fields such as Fracture and Aggregate. His research in Fiber-reinforced concrete intersects with topics in Ultimate tensile strength, Fiber orientation and Beam.
His main research concerns Structural engineering, Composite material, Reinforcement, Cement and Reinforced concrete. His work on Structural engineering is being expanded to include thematically relevant topics such as Cracking. His study in Cracking is interdisciplinary in nature, drawing from both Creep and Shrinkage.
Antonio Aguado combines subjects such as Waste management, Aggregate and Mortar with his study of Cement. Antonio Aguado focuses mostly in the field of Fiber-reinforced concrete, narrowing it down to topics relating to Toughness and, in certain cases, Beam. His work in the fields of Tensile testing overlaps with other areas such as Anisotropy.
Antonio Aguado mainly focuses on Composite material, Civil engineering, Montmorillonite, Superplasticizer and Context. His Composite material study is mostly concerned with Steel fibre, Compressive strength, Durability, Electrical conductor and Carbon fibers. His studies deal with areas such as Carbonation, Penetration, Elastic modulus, Leaching and Electric arc furnace as well as Compressive strength.
His Durability research includes themes of Aluminate and Sulphate attack. His studies in Montmorillonite integrate themes in fields like Intercalation and Side chain, Polymer. As part of his studies on Ultimate tensile strength, Antonio Aguado frequently links adjacent subjects like Structural engineering.
Composite material, Civil engineering, Dispersion, Value and Cementitious are his primary areas of study. His is doing research in Compressive strength, Durability, Penetration, Carbonation and Elastic modulus, both of which are found in Composite material. His Civil engineering research incorporates themes from Multi criteria decision and Pipeline transport.
His Dispersion study combines topics in areas such as Superplasticizer, Nanomaterials, Montmorillonite and Analytical chemistry. Value is integrated with Promotion, Decision tree, Multiple-criteria decision analysis, Relation and Environmental economics in his research. The concepts of his Cementitious study are interwoven with issues in Gypsum, Mechanical strength and Mortar.
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Meso-structural study of concrete fracture using interface elements. I: numerical model and tensile behavior
Carlos M. López;Ignacio Carol;Antonio Aguado.
Materials and Structures (2008)
Comparative analysis of available life cycle inventories of cement in the EU
Alejandro Josa;Antonio Aguado;Atte Heino;Ewan Byars.
Cement and Concrete Research (2004)
Comparative analysis of the life cycle impact assessment of available cement inventories in the EU
Alejandro Josa;Antonio Aguado;Arnaldo Cardim;Ewan Byars.
Cement and Concrete Research (2007)
Experiences in Barcelona with the use of fibres in segmental linings
Albert de la Fuente;Pablo Pujadas;Ana Blanco;Antonio Aguado.
Tunnelling and Underground Space Technology (2012)
Predicting the pullout response of inclined hooked steel fibers
F. Laranjeira;C. Molins;A. Aguado.
Cement and Concrete Research (2010)
Influence of shrinkage-reducing admixtures on the reduction of plastic shrinkage cracking in concrete
José Mora-Ruacho;Ravindra Gettu;Antonio Aguado.
Cement and Concrete Research (2009)
Fluidity of cement pastes with mineral admixtures and superplasticizer—A study based on the Marsh cone test
L. Agulló;B. Toralles-Carbonari;R. Gettu;A. Aguado.
Materials and Structures (1999)
Temperature and Stress Distributions in Concrete Box Girder Bridges
Enrique Mirambell;Antonio Aguado.
Journal of Structural Engineering-asce (1990)
Characterization of the orientation profile of steel fiber reinforced concrete
F. Laranjeira;S. Grünewald;J. Walraven;C. Blom.
Materials and Structures (2011)
A Value Function for Assessing Sustainability: Application to Industrial Buildings
Bibiana Alarcon;Antonio Aguado;Resmundo Manga;Alejandro Josa.
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