Eduardo Júlio spends much of his time researching Composite material, Structural engineering, Surface finish, Compressive strength and Bond strength. Many of his research projects under Composite material are closely connected to Tafel equation with Tafel equation, tying the diverse disciplines of science together. His study in Structural engineering concentrates on Reinforced concrete, Reinforcement, Finite element method, Stiffness and Flexural strength.
The concepts of his Surface finish study are interwoven with issues in Surface roughness, Surface, Measure and Substrate. His Compressive strength research is multidisciplinary, incorporating perspectives in Shrinkage, Dispersion, Thermogravimetric analysis and Scanning electron microscope. His Strength of materials study combines topics from a wide range of disciplines, such as Shear strength, Tension and Shear.
His primary scientific interests are in Structural engineering, Composite material, Finite element method, Compressive strength and Bond strength. His work deals with themes such as Composite number and Discontinuity, which intersect with Structural engineering. His studies in Finite element method integrate themes in fields like Mathematical analysis and Classification of discontinuities.
A large part of his Compressive strength studies is devoted to Silica fume. He combines subjects such as Modulus and Cracking with his study of Ultimate tensile strength. His biological study spans a wide range of topics, including Surface roughness, Shear strength, Shear and Shear.
Eduardo Júlio mostly deals with Composite material, Structural engineering, Image processing, Ultimate tensile strength and Fibre-reinforced plastic. His study in the field of Compressive strength, Cement, Surface finish and Flexural strength also crosses realms of Bond strength. His studies deal with areas such as Surface roughness and Cohesion as well as Surface finish.
His work on Finite element method and Masonry as part of general Structural engineering research is often related to Strain monitoring and Noise, thus linking different fields of science. His Image processing research integrates issues from Photogrammetry, Hyperspectral imaging and Cluster analysis. Eduardo Júlio interconnects Steel fibre, Modulus, Geometry and Cracking in the investigation of issues within Ultimate tensile strength.
His primary areas of investigation include Composite material, Structural engineering, Ultimate tensile strength, Fibre-reinforced plastic and Image processing. His study in Polypropylene, Surface finish, Brittleness, Ductility and Toughness are all subfields of Composite material. Eduardo Júlio performs multidisciplinary study on Structural engineering and Matrix in his works.
His Ultimate tensile strength research is multidisciplinary, incorporating elements of Surface roughness, Compressive strength, Cohesion and Shear. Eduardo Júlio has included themes like Matrix strength, Geometry, Aggregate and Steel fibre in his Compressive strength study. His Image processing study incorporates themes from MATLAB, Numerical analysis, Extended finite element method and Pattern recognition.
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CONCRETE-TO-CONCRETE BOND STRENGTH. INFLUENCE OF THE ROUGHNESS OF THE SUBSTRATE SURFACE
Eduardo N.B.S Júlio;Fernando A.B Branco;Vı́tor D Silva.
Construction and Building Materials (2004)
The effect of nanosilica addition on flowability, strength and transport properties of ultra high performance concrete
Ehsan Ghafari;Hugo Costa;Eduardo Júlio;António Portugal.
Materials & Design (2014)
Correlation between concrete-to-concrete bond strength and the roughness of the substrate surface
Pedro M.D. Santos;Eduardo N.B.S. Júlio;Vı´tor D. Silva.
Construction and Building Materials (2007)
Structural rehabilitation of columns with reinforced concrete jacketing
E S Júlio;F Branco;V D Silva.
Progress in Structural Engineering and Materials (2003)
A state-of-the-art review on roughness quantification methods for concrete surfaces
Pedro M.D. Santos;Eduardo N.B.S. Júlio.
Construction and Building Materials (2013)
Factors Affecting Bond between New and Old Concrete
Pedro Miguel Duarte Santos;Eduardo Nuno Brito Santos Julio.
Aci Materials Journal (2011)
A state-of-the-art review on shear-friction
Pedro M.D. Santos;Eduardo N.B.S. Júlio.
Engineering Structures (2012)
Effect of supplementary cementitious materials on autogenous shrinkage of ultra-high performance concrete
Ehsan Ghafari;Seyed Ali Ghahari;Hugo Costa;Eduardo Júlio.
Construction and Building Materials (2016)
Influence of added concrete compressive strength on adhesion to an existing concrete substrate
Eduardo N.B.S. Júlio;Fernando A.B. Branco;Vítor D. Silva;Jorge F. Lourenço.
Building and Environment (2006)
RSM-based model to predict the performance of self-compacting UHPC reinforced with hybrid steel micro-fibers
Ehsan Ghafari;Hugo Costa;Eduardo Júlio.
Construction and Building Materials (2014)
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