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Publications by M. Matallah
Relevance of a Mesoscopic Modeling for the Coupling Between Creep and Damage in Concrete
Mechanics of Time-Dependent Materials
Materials Science
Chemical Engineering
Mechanical Engineering
Aerospace Engineering
Related publications
Mesoscopic Numerical Computation of Compressive Strength and Damage Mechanism of Rubber Concrete
Advances in Materials Science and Engineering
Materials Science
Engineering
Analysis of Some Basic Creep Tests on Concrete and Their Implications for Modeling
Structural Concrete
Building
Mechanics of Materials
Materials Science
Civil
Structural Engineering
Construction
3d Modelling of Concrete for Earthquake Analysis: Damage Mechanics and Plasticity Coupling
Modeling of Cyclic Strength for the Asphalt Concrete Considering Damage Accumulation
Applied Sciences (Switzerland)
Instrumentation
Materials Science
Fluid Flow
Engineering
Computer Science Applications
Process Chemistry
Transfer Processes
Technology
A Computational Plastic–damage Method for Modeling the FRP Strengthening of Concrete Arches
Scientia Iranica
Discrete Kirchhoff Elements for the Reinforced Concrete Beams Modeling Comparison Between the Elasto-Plastic and Damage Behavior Models
Asian Journal of Scientific Research
Multidisciplinary
Constitutive Equations for the Coupling Between Elasto-Plasticity Damage and Aging
Revue de Physique Appliquée
Modeling Water Absorption in Concrete and Mortar With Distributed Damage
Construction and Building Materials
Building
Civil
Construction
Structural Engineering
Materials Science
On the Creep Deformation and the Equivalent Creep Factor of Prestressed Concrete Member Based on the Delayed Elastic and the Flow Creep of Concrete
Journal of Structural and Construction Engineering (Transactions of AIJ)