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From Micro to Macromechanics: A General Way of Obtaining Macroscopic Description from Microscopic Variables

  • M. Holeček,
Published/Copyright: June 1, 2009
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Journal of the Mechanical Behavior of Materials
From the journal Journal of the Mechanical Behavior of Materials Volume 19 Issue 2-3

Published Online: 2009-06

©2011 by Walter de Gruyter GmbH & Co.

Articles in the same Issue

  1. TABLE OF CONTENTS
  2. From Micro to Macromechanics: A General Way of Obtaining Macroscopic Description from Microscopic Variables
  3. Atomistic Foundation of Solid Mechanics and Thermomechanics
  4. Semi-Dense And Concentrated Fullerene-Based Composites: Microdeformation and Strain Gradient Effects
  5. Asymptotic Homogenization Technique for Stress and Strength for Some Non-Linear Elastic Problems with Near Periodic Structure
  6. Homogenization for Contact Problems with Known Microroughness of the Contacting Surfaces
  7. On a Computational Strategy with Time-Space Homogenization for Heterogeneous Materials
  8. Micromechanics and Mesomechanics of Laminates: Synergy and Model Improvements
  9. Through-the-Thickness Deformation of Composite Laminates Subjected to Bending
  10. An Interface-Multilayer Model for Delamination and Contact Analysis in Composite Plates
  11. Numerical Evaluation of Mixed Mode Delamination in a UD-Glass/Epoxy Composite and Comparison with Experimental Results
https://doi.org/10.1515/JMBM.2009.19.2-3.105
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Articles in the same Issue

  1. TABLE OF CONTENTS
  2. From Micro to Macromechanics: A General Way of Obtaining Macroscopic Description from Microscopic Variables
  3. Atomistic Foundation of Solid Mechanics and Thermomechanics
  4. Semi-Dense And Concentrated Fullerene-Based Composites: Microdeformation and Strain Gradient Effects
  5. Asymptotic Homogenization Technique for Stress and Strength for Some Non-Linear Elastic Problems with Near Periodic Structure
  6. Homogenization for Contact Problems with Known Microroughness of the Contacting Surfaces
  7. On a Computational Strategy with Time-Space Homogenization for Heterogeneous Materials
  8. Micromechanics and Mesomechanics of Laminates: Synergy and Model Improvements
  9. Through-the-Thickness Deformation of Composite Laminates Subjected to Bending
  10. An Interface-Multilayer Model for Delamination and Contact Analysis in Composite Plates
  11. Numerical Evaluation of Mixed Mode Delamination in a UD-Glass/Epoxy Composite and Comparison with Experimental Results
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