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Multi-Scale Modeling and Characterization of Infrastructure Materials

Proceedings of the International RILEM Symposium Stockholm, June 2013

  • Conference proceedings
  • © 2013

Overview

Editors:
  1. Niki Kringos

    1. KTH Royal Institute of Technology, Stockholm, Sweden

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  2. Björn Birgisson

    1. Dept. Civil & Architectural Engineering, Div. Soil- & Rock Mechanics, Royal Institute of Technology (KTH), Stockholm, Sweden

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  3. David Frost

    1. Georgia Institute of Technology, Savannah, USA

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  4. Linbing Wang

    1. Virginia Tech, Blacksburg, USA

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  • New research results
  • Excellent overview of various aspects of multi-scale modeling and characterization
  • Great source of information on the groups active in this field

Part of the book series: RILEM Bookseries (RILEM, volume 8)

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Table of contents (31 papers)

  1. Front Matter

    Pages 1-10
    Download chapter PDF

  2. Fracture Toughness Testing Aspects for Assessing Low Temperature Behaviour of Bituminous Binders

    • Moises Bueno, Martin Hugener, Manfred N. Partl
    Pages 1-12

  3. Evaluating the Representative Volume Element of Asphalt Concrete Mixture Beams for Testing in the Bending Beam Rheometer

    • Crystal Rae Clendennen, Pedro Romero
    Pages 13-30

  4. Consideration of Grain Size Distribution and Interfacial Transition Zone in the Prediction of Elastic Properties of Cementitious Composites

    • Francois Duplan, A. Abou-Chakra, A. Turatsinze, G. Escadeillas, S. Brule, F. Masse
    Pages 31-44

  5. Multi-scale Characterization of Asphalt Mastic Rheology

    • Ebrahim Hesami, Ali N. Ghafar, Björn Birgisson, Niki Kringos
    Pages 45-61

  6. Integrating Physicochemical and Geochemical Aspects for Development of a Multi-scale Modelling Framework to Performance Assessment of Cementitious Materials

    • Yogarajah Elakneswaran, Tetsuya Ishida
    Pages 63-78

  7. Investigation on Mechanical Properties of Bituminous Materials through 2D/3D Finite Element Numerical Simulations

    • Fateh Fakhari Tehrani, Fatima Allou, Joseph Absi, Christophe Petit
    Pages 79-87

  8. Challenges While Performing AFM on Bitumen

    • Hartmut Fischer, Lily D. Poulikakos, Jean-Pascal Planche, Prabir Das, James Grenfell
    Pages 89-98

  9. A Preliminary Numerical Study on ITZ in Cementitious Composites

    • Yun Gao, Geert De Schutter, Guang Ye, Mingzhong Zhang
    Pages 99-108

  10. Improvement of the Test Method for Determining Moisture Damage Resistance

    • Haleh Azari, Alaeddin Mohseni
    Pages 109-125

  11. Mode II Cracking Failure in Asphalt Concrete by Using a Non-conserved Phase Field Model

    • Yue Hou, Lei Zhang, Pengtao Yue, Troy Pauli, Fengyan Sun, Linbing Wang
    Pages 127-138

  12. Asphalt Internal Structure Characterization with X-Ray Computed Tomography and Digital Image Processing

    • Ibrahim Onifade, Denis Jelagin, Alvaro Guarin, Bjorn Birgisson, Nicole Kringos
    Pages 139-158

  13. Evaluation of Anti-clogging Property of Porous Asphalt Concrete Using Microscopic Voids Analysis

    • Wei Jiang, Aimin Sha
    Pages 159-172

  14. Representative Volumes for Numerical Modeling of Mass Transport in Hydrating Cement Paste

    • Neven Ukrainczyk, Eduard A. B. Koenders, Klaas van Breugel
    Pages 173-184

  15. Exploring the Observed Rheological Behaviour of In-Situ Aged and Fresh Bitumen Employing the Colloidal Model Proposed for Bitumen

    • Olli-Ville Laukkanen, Terhi Pellinen, Michalina Makowska
    Pages 185-197

  16. Effect of Film Thickness of Asphalt Mixture in Compression Test

    • Ying Li, Dong Wang, Linbing Wang, Lei Zhang, Xudong Wang
    Pages 199-218

  17. Insulating Pavements to Extend Service Life

    • Rajib B. Mallick, Aaron Sakulich, Bao-Liang Chen, Sankha Bhowmick
    Pages 219-236

  18. Prediction of Linear Viscoelastic Behaviour of Asphalt Mixes from Binder Properties and Reversal

    • Quang Tuan Nguyen, Hervé Di Benedetto, Cédric Sauzéat
    Pages 237-248

  19. A 3D/2D Comparison between Heterogeneous Mesoscale Models of Concrete

    • Filip Nilenius, Fredrik Larsson, Karin Lundgren, Kenneth Runesson
    Pages 249-259

  20. Meso-Scale Analysis Considering Effect of Fiber Inclination in Fiber Reinforced Cementitious Composites

    • Hiroki Ogura, Minoru Kunieda, Hikaru Nakamura
    Pages 261-272
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Keywords

About this book

The micro- and nano-modification of infrastructure materials and the associated multi-scale characterization and simulation has the potential to open up whole new uses and classes of materials, with wide-ranging implications for society. The use of multi-scale characterization and simulation brings the ability to target changes at the very small scale that predictably effect the bulk behavior of the material and thus allowing for the optimization of material behavior and performance.       

 

The International RILEM Symposium on Multi-Scale Modeling and Characterization of Infrastructure Materials (Stockholm, June 10-12, 2013) brought together key researchers from around the world to present their findings and ongoing research in this field in a focused environment with extended discussion times. From asphalt to concrete, from chemistry to mechanics, from nano- to macro-scale: the collection of topics covered by the Symposium represents the width and depth of the currently ongoing efforts of developing more sustainable infrastructure materials.

 

Researchers, practitioners, undergraduates and graduate students engaged in infrastructure materials or multi-scale characterization and modeling efforts can use this book as a comprehensive reference, to learn about the currently ongoing research efforts in this field or as an inspiration for new research ideas to enhance the long-term performance of infrastructure materials from a fundamental perspective.  

 

The Symposium was held under the auspices of the RILEM Technical Committee on Nanotechnology-Based Bituminous Materials 231-NBM and the Transport Research Board (TRB) Technical Committee on Characteristics of Asphalt Materials AFK20.

 

Editors and Affiliations

  • KTH Royal Institute of Technology, Stockholm, Sweden

    Niki Kringos

  • Dept. Civil & Architectural Engineering, Div. Soil- & Rock Mechanics, Royal Institute of Technology (KTH), Stockholm, Sweden

    Björn Birgisson

  • Georgia Institute of Technology, Savannah, USA

    David Frost

  • Virginia Tech, Blacksburg, USA

    Linbing Wang

Bibliographic Information

  • Book Title: Multi-Scale Modeling and Characterization of Infrastructure Materials

  • Book Subtitle: Proceedings of the International RILEM Symposium Stockholm, June 2013

  • Editors: Niki Kringos, Björn Birgisson, David Frost, Linbing Wang

  • Series Title: RILEM Bookseries

  • DOI: https://doi.org/10.1007/978-94-007-6878-9

  • Publisher: Springer Dordrecht

  • eBook Packages: Engineering, Engineering (R0)

  • Copyright Information: RILEM 2013

  • Hardcover ISBN: 978-94-007-6877-2Published: 04 June 2013

  • Softcover ISBN: 978-94-007-9354-5Published: 23 June 2015

  • eBook ISBN: 978-94-007-6878-9Published: 26 May 2013

  • Series ISSN: 2211-0844

  • Series E-ISSN: 2211-0852

  • Edition Number: 1

  • Number of Pages: X, 434

  • Topics: Building Materials, Characterization and Evaluation of Materials, Theoretical and Applied Mechanics

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