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Multiscale and Multiphysics Modelling for Advanced and Sustainable Materials

Euromech Colloquium 642

  • Book
  • © 2025

Overview

Editors:
  1. Patrizia Trovalusci

    1. Department of Structural and Geotechnical Engineering, Sapienza University of Rome, Roma, Italy

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  2. Tomasz Sadowski

    1. Department of Solid Mechanics, Faculty of Civil Engineering and Architecture, Lublin University of Technology, Lublin, Poland

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  3. Adnan Ibrahimbegovic

    1. Département Ingénierie Mécanique, Universite de Technologie Compiegne - Alliance Sorbonne, Compiegne, France

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  • Provides a comprehensive collection of up-to-date researches in multi-physics approaches to materials
  • Tackles solutions to both basic and applied problems
  • Covers modeling, numerical, experimental, and optimization aspects

Part of the book series: Advanced Structured Materials (STRUCTMAT, volume 231)

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About this book

This book offers the proceedings of Euromech colloquium 642, which wanted to provide a forum to present and debate several advanced computational, experimental, and analytical methods for studying the behaviour of complex materials and structures. The goal was to gather researchers (engineers, physicists, and mathematicians) specialized in multiscale material modelling for simulating the mechanics of solids and the physics of matter with the final aim of bridging the gap between solids and structural mechanics and material science in the modelling of “complex” materials. Both computational and experimental aspects play a central role, and talks have also focused on a broad range of aspects either related to the material modelling or the structural one.

 

Various types of complex materials, made of very different constituents, are used nowadays in engineering practice: particle or fibrous composites; laminates; green composites with natural fillers and industrial or urban recyclable materials; nanomaterials; architecture material; in general complex multiphase materials with a complex internal structure including: porosity, reinforcement in the form of short fibres and particles of various properties, shapes, and sizes, filled in different media. It is widely recognized that important macroscopic properties such as the macroscopic stiffness and strength are governed by multiphysics processes (e.g. damage due to heat transfer or fluid penetration, crack propagation under thermal shock in ceramic/metallic matrix composites, etc.) which occur at one to several scales below the level of observation. A thorough understanding of how these processes influence the reduction of stiffness and strength is a key to the analysis of existing, and the design of improved, complex materials. The colloquium was centred on “Multiscale and Multiphysics Modeling of Complex Materials”, with attention to the constitutive aspects concerning complex materials, so defined for the presence of internal structure at different scales (nano/micro/meso) and nonlinear constitutive behaviour (plasticity, damage, fracture, etc.).

Keywords

Table of contents (31 chapters)

  1. Front Matter

    Pages i-xix
    Download chapter PDF

  2. Clay Reinforced with Hemp and Wood Fibres for Additive Manufacturing Processes

    • Imene Abidi, Biagio Carboni, Nicholas Fantuzzi, Patrizia Trovalusci, Milan Gaff
    Pages 1-14

  3. Structural Models for the Load-Capacity Assessment of Masonry Vaults

    • Francesco Barsi, Riccardo Barsotti
    Pages 15-32

  4. Deflection-Constrained Topology Optimization of Structures with Graded Infill

    • Matteo Bruggi, Carlo Guerini
    Pages 33-44

  5. The Statics of the Multi-cracked Bickford–Reddy Beam

    • Salvatore Caddemi, Francesco Cannizzaro
    Pages 45-57

  6. Multiscale Dynamics of a Foucault Pendulum for Gravitational Measurements

    • Matthew P. Cartmell
    Pages 59-70

  7. Pattern Formation in Three-State Systems: Towards Understanding Morphology Formation in the Presence of Evaporation

    • Emilio N. M. Cirillo, Rainey Lyons, Adrian Muntean, Stela Andrea Muntean
    Pages 71-85

  8. Micropolar Parameters Identification of a Composite Material

    • Marco Colatosti, Greta Ongaro, Marco Pingaro, Patrizia Trovalusci
    Pages 87-97

  9. Design and Simulation of Hierarchical Metamaterials Based on TPMS

    • Massimo Cuomo, Golshan Farzi
    Pages 99-111

  10. Methods of Machine Learning and Spatial Stochastics for Characterizing the 3D Morphology of Battery Materials at Various Length Scales

    • Orkun Furat, Lukas Fuchs, Donal P. Finegan, Kandler Smith, Volker Schmidt
    Pages 113-125

  11. Identification of Material and Structural Parameters of Corrugated Board in Production and Converting Processes

    • Tomasz Garbowski, Tomasz Gajewski, Jakub K. Grabski, Damian Mrówczyński, Aram Cornaggia
    Pages 127-139

  12. Modeling of Fracture Propagation in Random Composites Coupling Virtual Elements and Interface Elements

    • Cristina Gatta, Marco Pingaro, Daniela Addessi, Patrizia Trovalusci
    Pages 141-152

  13. Modeling the Degradation of Bio-absorbable Bone Implants: A Computational Approach

    • Pierfrancesco Gaziano, Lorenzo Zoboli, Michele Marino, Alessio Gizzi, Giuseppe Vairo
    Pages 153-165

  14. Upscaling Process Towards a Unified Thermodynamic-Based Multi-Physics Inertial Macroelement for Geotechnical Systems

    • Davide Noè Gorini
    Pages 167-180

  15. Physicochemical Analysis of Composite Fragments from Russian Sub- and Supersonic Cruise Missiles: Insights from Scanning Electron Microscopy

    • Viacheslav Bogdanov, Alexander Grigorenko, Igor Chepkov, Igor Odnoralov, Valerii Kremenytskyi, Svetlana Sperkach
    Pages 181-192

  16. Synergy of Multiscale Modeling and Stochastics in Fracture

    • Adnan Ibrahimbegovic, Emir Karavelic, Rosa-Adela Mejia-Nava, Samir Suljevic
    Pages 193-203

  17. Homogenization of Fibrous Composites with Stochastic Interface Defects- Probabilistic Entropy Approach

    • Marcin Kamiński
    Pages 205-215

  18. Viscous Effects on the Crack Propagation in Elastomers

    • Jacopo Ciambella, Giovanni Lancioni, Nico Stortini
    Pages 217-228

  19. Multiscale and Multiphysics Modeling of Imperfect Interfaces

    • Frédéric Lebon, Raffaella Rizzoni, Michele Serpilli, Maria Letizia Raffa, Serge Dumont
    Pages 229-243

  20. Investigation of Anisotropic Damage Phenomena in Bioinspired Composite Microstructures via a Combined Bulk/Interface Multiscale Model

    • Fabrizio Greco, Lorenzo Leonetti, Paolo Lonetti, Paolo Nevone Blasi, Arturo Pascuzzo
    Pages 245-257
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Editors and Affiliations

  • Department of Structural and Geotechnical Engineering, Sapienza University of Rome, Roma, Italy

    Patrizia Trovalusci

  • Department of Solid Mechanics, Faculty of Civil Engineering and Architecture, Lublin University of Technology, Lublin, Poland

    Tomasz Sadowski

  • Département Ingénierie Mécanique, Universite de Technologie Compiegne - Alliance Sorbonne, Compiegne, France

    Adnan Ibrahimbegovic

About the editors

Patrizia Trovalusci, Ph.D., is a full professor of Solids and Structural Mechanics. Patrizia Trovalusci is the director of the Ph.D. Programme in Structural and Geotechnical Engineering and of the Doctoral School of Civil Engineering and Architecture at Sapienza University of Rome and is an author of more than 200 articles in International Journals, Volumes, Conference Proceedings, and more. Patrizia Trovalusci is an organizer of several Conferences, Minisymposia, International Advanced Courses on Solid Mechanics and Structures and guest editor of many special issues in international journals. Patrizia Trovalusci is an associate editor and/or  member of Editorial Boards of International Journals; Patrizia Trovalusci is a member of International Scientific Societies, International Evaluations Committees for researchers recruitments; Patrizia Trovalusci  is a remote referee of international commitments for funding assignment. Patrizia Trovalusci is a principal investigator of competitive Research Projects.

 

Bibliographic Information

  • Book Title: Multiscale and Multiphysics Modelling for Advanced and Sustainable Materials

  • Book Subtitle: Euromech Colloquium 642

  • Editors: Patrizia Trovalusci, Tomasz Sadowski, Adnan Ibrahimbegovic

  • Series Title: Advanced Structured Materials

  • DOI: https://doi.org/10.1007/978-3-031-84379-2

  • Publisher: Springer Cham

  • eBook Packages: Physics and Astronomy, Physics and Astronomy (R0)

  • Copyright Information: The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2025

  • Hardcover ISBN: 978-3-031-84378-5Due: 25 June 2025

  • Softcover ISBN: 978-3-031-84381-5Due: 25 June 2026

  • eBook ISBN: 978-3-031-84379-2Published: 24 May 2025

  • Series ISSN: 1869-8433

  • Series E-ISSN: 1869-8441

  • Edition Number: 1

  • Number of Pages: XIX, 429

  • Number of Illustrations: 45 b/w illustrations, 164 illustrations in colour

  • Topics: Classical and Continuum Physics, Chemistry/Food Science, general, Theoretical, Mathematical and Computational Physics

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