D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Mechanical and Aerospace Engineering D-index 32 Citations 4,249 89 World Ranking 1061 National Ranking 433

Overview

What is he best known for?

The fields of study he is best known for:

  • Composite material
  • Thermodynamics
  • Mathematical analysis

David H. Allen mainly investigates Constitutive equation, Finite element method, Fracture mechanics, Composite material and Structural engineering. His study connects Mathematical analysis and Constitutive equation. His work deals with themes such as Numerical analysis, Boundary value problem and Viscoelasticity, which intersect with Finite element method.

He has researched Fracture mechanics in several fields, including Micromechanics and Homogenization. His Composite material research focuses on State variable and how it relates to Helmholtz free energy, Tensor, Continuum mechanics and Fissure. As part of one scientific family, David H. Allen deals mainly with the area of Structural engineering, narrowing it down to issues related to the Material properties, and often Fracture, Asphalt and Cracking.

His most cited work include:

  • A thermomechanical constitutive theory for elastic composites with distributed damage—I. Theoretical development (269 citations)
  • A THREE-DIMENSIONAL FINITE ELEMENT FORMULATION FOR THERMOVISCOELASTIC ORTHOTROPIC MEDIA (165 citations)
  • A thermomechanical constitutive theory for elastic composites with distributed damage. II: Application to matrix cracking in laminated composites (151 citations)

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

Composite material, Finite element method, Structural engineering, Viscoelasticity and Constitutive equation are his primary areas of study. His Composite material research focuses on State variable and how it connects with Tensor, Epoxy and Fissure. His Finite element method study incorporates themes from Delamination, Numerical analysis, Continuum mechanics and Boundary value problem.

His work in the fields of Structural engineering, such as Fracture mechanics, overlaps with other areas such as Scale. He combines subjects such as Solid mechanics, Cohesive zone model, Fracture, Homogenization and Asphalt with his study of Viscoelasticity. David H. Allen studies Viscoplasticity which is a part of Constitutive equation.

He most often published in these fields:

  • Composite material (45.70%)
  • Finite element method (33.11%)
  • Structural engineering (32.45%)

What were the highlights of his more recent work (between 2011-2020)?

  • Structural engineering (32.45%)
  • Asphalt (16.56%)
  • Viscoelasticity (31.13%)

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

David H. Allen mainly focuses on Structural engineering, Asphalt, Viscoelasticity, Finite element method and Geotechnical engineering. His research in Structural engineering intersects with topics in Material properties, Rut, Dissipation and Asphalt concrete. His Asphalt study introduces a deeper knowledge of Composite material.

His work carried out in the field of Composite material brings together such families of science as Continuum and Dissipative system. His work deals with themes such as Elastomer, Polymer, Continuum mechanics and Fracture, which intersect with Viscoelasticity. His Finite element method research is multidisciplinary, incorporating perspectives in Mechanical engineering, Cracking and Computation.

Between 2011 and 2020, his most popular works were:

  • Modeling and Design of Flexible Pavements and Materials (16 citations)
  • Multi-scale computational model for design of flexible pavement – part II: contracting multi-scaling (14 citations)
  • Multiscale Model for Asphalt Mixtures Subjected to Cracking and Viscoelastic Deformation (13 citations)

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

  • Composite material
  • Thermodynamics
  • Mathematical analysis

His primary scientific interests are in Structural engineering, Geotechnical engineering, Finite element method, Asphalt and Viscoelasticity. The various areas that he examines in his Structural engineering study include Asphalt concrete and Material properties. His Geotechnical engineering study integrates concerns from other disciplines, such as Adhesive, Bond strength and Composite material, Displacement, Surface energy.

His study on Cauchy elastic material is often connected to Multiscale modeling as part of broader study in Finite element method. His Asphalt research includes elements of Durability and Aggregate. David H. Allen has researched Viscoelasticity in several fields, including Mechanics, Finite element technique and Dissipation.

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 thermomechanical constitutive theory for elastic composites with distributed damage—I. Theoretical development

D.H. Allen;C.E. Harris;S.E. Groves.
International Journal of Solids and Structures (1987)

413 Citations

A THREE-DIMENSIONAL FINITE ELEMENT FORMULATION FOR THERMOVISCOELASTIC ORTHOTROPIC MEDIA

M. A. Zocher;S. E. Groves;D. H. Allen.
International Journal for Numerical Methods in Engineering (1997)

253 Citations

A thermomechanical constitutive theory for elastic composites with distributed damage. II: Application to matrix cracking in laminated composites

D.H. Allen;C.E. Harris;S.E. Groves.
International Journal of Solids and Structures (1987)

227 Citations

Internal State Variable Approach for Predicting Stiffness Reductions in Fibrous Laminated Composites with Matrix Cracks

Jong-Won Lee;D.H. Allen;C.E. Harris.
Journal of Composite Materials (1989)

209 Citations

A micromechanical model for a viscoelastic cohesive zone

David H. Allen;Chad R. Searcy.
International Journal of Fracture (2001)

183 Citations

An experimental and analytical treatment of matrix cracking in cross-ply laminates

S. E. Groves;C. E. Harris;A. L. Highsmith;D. H. Allen.
Experimental Mechanics (1987)

160 Citations

Formulation of a three-dimensional cohesive zone model for application to a finite element algorithm

J.W. Foulk;D.H. Allen;K.L.E. Helms.
Computer Methods in Applied Mechanics and Engineering (2000)

144 Citations

Micromechanical analysis of a continuous fiber metal matrix composite including the effects of matrix viscoplasticity and evolving damage

D.H. Allen;R.H. Jones;J.G. Boyd.
Journal of The Mechanics and Physics of Solids (1994)

122 Citations

Damage-Induced Modeling of Asphalt Mixtures through Computational Micromechanics and Cohesive Zone Fracture

Yong-Rak Kim;Yong-Rak Kim;D. H. Allen;D. H. Allen;D. N. Little;D. N. Little.
Journal of Materials in Civil Engineering (2005)

117 Citations

Computational Constitutive Model for Predicting Nonlinear Viscoelastic Damage and Fracture Failure of Asphalt Concrete Mixtures

Yong-Rak Kim;Yong-Rak Kim;D. H. Allen;D. H. Allen;D. N. Little;D. N. Little.
International Journal of Geomechanics (2007)

117 Citations

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