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      Chapter

      Micromechanical
                                modelling of porous asphalt mixes at high temperatures
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      Chapter

      Micromechanical modelling of porous asphalt mixes at high temperatures

      DOI link for Micromechanical modelling of porous asphalt mixes at high temperatures

      Micromechanical modelling of porous asphalt mixes at high temperatures book

      Micromechanical modelling of porous asphalt mixes at high temperatures

      DOI link for Micromechanical modelling of porous asphalt mixes at high temperatures

      Micromechanical modelling of porous asphalt mixes at high temperatures book

      ByK. Anupam, H. Zhang, T. Scarpas, C. Kasbergen, S. Erkens, H. Wang, P. Apostolidis
      BookAdvances in Materials and Pavement Performance Prediction II

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      Edition 1st Edition
      First Published 2020
      Imprint CRC Press
      Pages 5
      eBook ISBN 9781003027362
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      ABSTRACT

      Micromechanical modelling has been widely used to predict the properties of asphalt mixes. In comparison to numerical micromechanical models, analytical micromechanical models have the benefits of consuming much less time and facilities. The most commonly used analytical micromechanical models are the Eshelby-based micromechanical models. However, without the consideration of particles’ interactions, these models fail to accurately predict the properties of asphalt mixes, especially at high temperatures. In porous asphalt (PA) mixes, due to the formation of an interconnected aggregate network, the particles’ interactions under a compressive loading condition at high temperatures mainly refer to the packing effects. In order to describe the behavior of packed aggregates in PA mixes, Walton’s model which predicts the effective moduli of a pack of spherical particles is possible to be a suitable way. However, to the best of authors’ knowledge, this model has not been utilized for asphalt mixes. Therefore, this paper aims to investigate the application of Walton’s model for predicting the properties of PA mixes at high temperatures.

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