Multi-Scale Continuum Mechanics Modelling of Fibre-Reinforced Polymer Composites (Woodhead Publishing Series in Composites Science and Engineering) - Tapa blanda

 
9780128189849: Multi-Scale Continuum Mechanics Modelling of Fibre-Reinforced Polymer Composites (Woodhead Publishing Series in Composites Science and Engineering)
Tapa blanda
ISBN 10: 0128189843 ISBN 13: 9780128189849
Editorial: Woodhead Publishing, 2020

Sinopsis

Multi-scale modelling of composites is a very relevant topic in composites science. This is illustrated by the numerous sessions in the recent European and International Conferences on Composite Materials, but also by the fast developments in multi-scale modelling software tools, developed by large industrial players such as Siemens (Virtual Material Characterization toolkit and MultiMechanics virtual testing software), MSC/e-Xstream (Digimat software), Simulia (micromechanics plug-in in Abaqus), HyperSizer (Multi-scale design of composites), Altair (Altair Multiscale Designer)

This book is intended to be an ideal reference on the latest advances in multi-scale modelling of fibre-reinforced polymer composites, that is accessible for both (young) researchers and end users of modelling software. We target three main groups:

This book aims at a complete introduction and overview of the state-of-the-art in multi-scale modelling of composites in three axes:

• ranging from prediction of homogenized elastic properties to nonlinear material behaviour

• ranging from geometrical models for random packing of unidirectional fibres over meso-scale geometries for textile composites to orientation tensors for short fibre composites

• ranging from damage modelling of unidirectionally reinforced composites over textile composites to short fibre-reinforced composites

The book covers the three most important scales in multi-scale modelling of composites: (i) micro-scale, (ii) meso-scale and (iii) macro-scale. The nano-scale and related atomistic and molecular modelling approaches are deliberately excluded, since the book wants to focus on continuum mechanics and there are already a lot of dedicated books about polymer nanocomposites.

A strong focus is put on physics-based damage modelling, in the sense that the chapters devote attention to modelling the different damage mechanisms (matrix cracking, fibre/matrix debonding, delamination, fibre fracture,...) in such a way that the underlying physics of the initiation and growth of these damage modes is respected.

The book also gives room to not only discuss the finite element based approaches for multi-scale modelling, but also much faster methods that are popular in industrial software, such as Mean Field Homogenization methods (based on Mori-Tanaka and Eshelby solutions) and variational methods (shear lag theory and more advanced theories).

Since the book targets a wide audience, the focus is put on the most common numerical approaches that are used in multi-scale modelling. Very specialized numerical methods like peridynamics modelling, Material Point Method, eXtended Finite Element Method (XFEM), isogeometric analysis, SPH (Smoothed Particle Hydrodynamics),... are excluded.

Outline of the book

The book is divided in three large parts, well balanced with each a similar number of chapters:

  • Part I deals with all "ingredients" to start with multi-scale modelling, limited to elastic property prediction. This typically includes: (i) setting up your geometrical model at micro- or meso-scale (definition of Representative Volume Element (RVE) or Repeating Unit Cell (RUC)), (ii) definition of periodic boundary conditions, (iii) homogenization of the elastic properties, starting from the elastic properties of the constituents, (iv) importance of statistical representation of geometry and stochastic nature of fibre architecture. This should bring all readers at the same level of principles and terminology for multi-scale modelling. Advanced users could eventually skip this first part.

  • Part II deals with nonlinear multi-scale modelling. We build further upon the ingredients from Part I, but now add all kinds of nonlinearities to the simulation at micro- or meso-scale (matrix cracking, delamination, fibre/matrix debonding, delamination, fibre failure, visco-elasto-plasticity-damage of the p

"Sinopsis" puede pertenecer a otra edición de este libro.

Acerca del autor

Wim Van Paepegem is full professor and head of the research group "Mechanics of Materials and Structures" at Ghent University in Belgium. The group’s research is focussed on experimental and computational mechanics of fibre-reinforced composites, polymers, foams and additively manufactured polymers and metals, as well as non-destructive testing of those materials. Wim Van Paepegem has published more than 240 peer-reviewed Science Citation Index (SCI) journal papers in these research domains. He is serving as an Editorial Board Member for the international journals "Composites Part B" and "Composites Science and Technology" (both top-ranked in composite field), "Polymer Testing" and "Fatigue and Fracture of Engineering Materials and Structures". He has already received five personal awards for his academic achievements, including the "Best Young Researcher" award from the European Society for Composite Materials, the UGent Prometheus award for research and the Laureate prize of the Royal Flemish Academy of Belgium for Science and Arts. He is currently involved in more than twenty European, national, regional and bilateral research projects and over the last five years, four spin-off companies have been initiated out of his research group. Prof. Van Paepegem is also coordinator of the UGent valorization consortium for composite materials.

De la contraportada

Multi-Scale Continuum Mechanics Modelling of Fibre-Reinforced Polymer Composites provides a comprehensive and state-of-the-art review on the application and use of multi-scale modelling to predict damage mechanisms in composite materials. Following a logical structure the book is divided into three main parts. The first part discusses all the “ingredients necessary to start with multi-scale modelling, limited to elastic property prediction. This includes: (i) setting up your geometrical model at micro- or meso-scale (definition of Representative Volume Element (RVE) or Repeating Unit Cell (RUC)), (ii) definition of periodic boundary conditions, (iii) homogenization of the elastic properties, starting from the elastic properties of the constituents, (iv) importance of statistical representation of geometry and stochastic nature of fibre architecture. This should bring all readers up to the same level of principles and terminology for multi-scale modelling. The second part deals with nonlinear multi-scale modelling. It builds further upon the ingredients from Part I, but now adds all kinds of nonlinearities to the simulation at micro- or meso-scale (matrix cracking, delamination, fibre/matrix debonding, delamination, fibre failure, visco-elasto-plasticity-damage of the polymer matrix). Not only finite element based techniques are covered, but also much faster inclusion methods (Mori-Tanaka, Eshelby) and variational methods. The third part deals with the laminate scale or macro-scale, where all these multi-scale modelling tools are applied for virtual testing of laminates (in static loading, but also sometimes for prediction of fatigue, crushing). As mentioned above, in all three parts, the main types of fibre reinforcement are covered (unidirectionally reinforced composites, textile composites and short fibre composites). The focus is always on physically sound damage modelling and continuum mechanics (no attention to special discrete methods or particle methods).The book will be an essential reference resource for PhD students and post-doctoral researchers involved in the modelling of composites; R&D engineers using commercial software tools for multi-scale modelling of composites in industry, and those working in composite mechanics such as academic and industrial researchers, and people working in software houses developing FE and other numerical packages and design tools.

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Editorial
Woodhead Publishing
Año de publicación
2020
Idioma
Inglés
ISBN 10 
0128189843
ISBN 13 
9780128189849
Encuadernación
Tapa blanda
Número de páginas
766
Editor
Paepegem Wim Van
Contacto del fabricante
no disponible
Persona responsable
no disponible