H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Engineering and Technology D-index 42 Citations 5,921 159 World Ranking 2342 National Ranking 62

Overview

What is he best known for?

The fields of study he is best known for:

  • Composite material
  • Finite element method
  • Structural engineering

Elio Sacco focuses on Finite element method, Structural engineering, Constitutive equation, Masonry and Homogenization. The Finite element method study combines topics in areas such as Shear, Geometry, Computation and Mathematical analysis. His research on Structural engineering frequently links to adjacent areas such as Composite material.

Elio Sacco has researched Constitutive equation in several fields, including Numerical analysis, Residual, Applied mathematics and Shape-memory alloy. His work carried out in the field of Masonry brings together such families of science as Linear elasticity, Fibre-reinforced plastic and Compression. His Homogenization study combines topics from a wide range of disciplines, such as Representative elementary volume, Micromechanics and Mortar.

His most cited work include:

  • A one-dimensional model for superelastic shape-memory alloys with different elastic properties between austenite and martensite (212 citations)
  • Homogenization technique and damage model for old masonry material (185 citations)
  • Combining interface damage and friction in a cohesive-zone model (178 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Structural engineering, Masonry, Composite material, Finite element method and Homogenization. Elio Sacco has included themes like Mortar and Plasticity in his Structural engineering study. His study in Masonry is interdisciplinary in nature, drawing from both Geotechnical engineering, Linear elasticity, Brittleness, Compression and Arch.

In general Composite material study, his work on Composite number, Stress and Cracking often relates to the realm of Bond, thereby connecting several areas of interest. His work in Finite element method covers topics such as Mathematical analysis which are related to areas like Classical mechanics. His Homogenization study combines topics in areas such as Representative elementary volume, Cauchy distribution, Micromechanics and Piecewise.

He most often published in these fields:

  • Structural engineering (51.46%)
  • Masonry (34.31%)
  • Composite material (29.71%)

What were the highlights of his more recent work (between 2017-2021)?

  • Masonry (34.31%)
  • Composite material (29.71%)
  • Structural engineering (51.46%)

In recent papers he was focusing on the following fields of study:

His main research concerns Masonry, Composite material, Structural engineering, Mortar and Homogenization. His biological study spans a wide range of topics, including Geotechnical engineering and Forensic engineering. The Stress research he does as part of his general Composite material study is frequently linked to other disciplines of science, such as Cementitious matrix, therefore creating a link between diverse domains of science.

Much of his study explores Structural engineering relationship to Spline interpolation. His work deals with themes such as Mortar joint, Viscoplasticity, Strength of materials and Piecewise, which intersect with Homogenization. His Finite element method research incorporates elements of Composite number, Brick and Backward Euler method.

Between 2017 and 2021, his most popular works were:

  • Modeling Strategies for the Computational Analysis of Unreinforced Masonry Structures: Review and Classification (49 citations)
  • Experimental performance of FRCM retrofit on out-of-plane behaviour of clay brick walls (24 citations)
  • Numerical investigation on the bond behavior of FRCM strengthening systems (22 citations)

In his most recent research, the most cited papers focused on:

  • Composite material
  • Mathematical analysis
  • Finite element method

The scientist’s investigation covers issues in Masonry, Composite material, Structural engineering, Homogenization and Stress. His Masonry research is multidisciplinary, incorporating elements of Linear elasticity, Arch and Forensic engineering. His Composite material study which covers Finite element method that intersects with Composite number.

As part of his studies on Structural engineering, Elio Sacco frequently links adjacent subjects like Mortar. His Mortar research is multidisciplinary, relying on both Fibre-reinforced plastic and Reinforcement. The various areas that Elio Sacco examines in his Homogenization study include Piecewise, Computation, Tangent and Strength of materials.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

A one-dimensional model for superelastic shape-memory alloys with different elastic properties between austenite and martensite

F. Auricchio;E. Sacco.
International Journal of Non-linear Mechanics (1997)

345 Citations

Homogenization technique and damage model for old masonry material

Raimondo Luciano;Elio Sacco.
International Journal of Solids and Structures (1997)

303 Citations

Combining interface damage and friction in a cohesive-zone model

Giulio Alfano;Elio Sacco.
International Journal for Numerical Methods in Engineering (2006)

275 Citations

Finite-element Analysis of a Stenotic Artery Revascularization Through a Stent Insertion

F. Auricchio;M. Di Loreto;E. Sacco.
Computer Methods in Biomechanics and Biomedical Engineering (2001)

214 Citations

Round Robin Test for composite-to-brick shear bond characterization

Maria Rosa Valluzzi;Daniel V. Oliveira;Angelo Caratelli;Giulio Castori.
Materials and Structures (2012)

186 Citations

A Superelastic Shape-Memory-Alloy Beam Model

Ferdinando Auricchio;Elio Sacco.
Journal of Intelligent Material Systems and Structures (1997)

168 Citations

Modelling of SMA materials: Training and two way memory effects

F. Auricchio;Sonia Marfia;Elio Sacco.
Computers & Structures (2003)

141 Citations

A temperature-dependent beam for shape-memory alloys: Constitutive modelling, finite-element implementation and numerical simulations

F. Auricchio;E. Sacco.
Computer Methods in Applied Mechanics and Engineering (1999)

131 Citations

Modelling and analysis of FRP-strengthened masonry panels

Ernesto Grande;Gabriele Milani;Elio Sacco.
Engineering Structures (2008)

124 Citations

A mixed‐enhanced finite‐element for the analysis of laminated composite plates

Ferdinando Auricchio;Elio Sacco.
International Journal for Numerical Methods in Engineering (1999)

123 Citations

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Best Scientists Citing Elio Sacco

Gabriele Milani

Gabriele Milani

Politecnico di Milano

Publications: 108

Ferdinando Auricchio

Ferdinando Auricchio

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Paulo B. Lourenço

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Daniel V. Oliveira

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Raimondo Luciano

University of Cassino and Southern Lazio

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Alessandro Reali

Alessandro Reali

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Antonio Tralli

Antonio Tralli

University of Ferrara

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Marco Paggi

Marco Paggi

IMT Institute for Advanced Studies Lucca

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Peter Wriggers

Peter Wriggers

University of Hannover

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Guozheng Kang

Guozheng Kang

Southwest Jiaotong University

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Andrea Prota

Andrea Prota

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Erasmo Carrera

Erasmo Carrera

Polytechnic University of Turin

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Reginald DesRoches

Reginald DesRoches

Rice University

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Francesco Tornabene

Francesco Tornabene

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Dimitris C. Lagoudas

Dimitris C. Lagoudas

Texas A&M University

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Mohammad Mohammadi Aghdam

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