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Additive Manufacturing of Polymer-Based Composite Materials Materials, Processes, and Properties Woodhead Publishing Series in Composites Science and Engineering Series

Langue : Anglais

Coordonnateurs : Touchard Fabienne, Sarasini Fabrizio

Couverture de l’ouvrage Additive Manufacturing of Polymer-Based Composite Materials
Additive Manufacturing of Polymer-based Composite Materials: Materials, Processes, and Properties presents the latest developments in additive manufacturing of polymer matrix composites and illustrates the large range of composite materials that can be obtained. Different technologies are presented with their own specificities such as: fused filament fabrication, wet fiber placement, stereolithography, and direct-ink-writing. Composites with chopped or continuous reinforcement, with synthetic or natural fibers, with thermoplastic or thermoset resin are compared and described in detail. Their thermal, physical, electrical, and mechanical properties are discussed.

The book is dedicated to professionals involved in engineering design and production, as well as industrial communities who want to gain in-depth knowledge in the field of 3D printed composites.
1. Recent trends in “conventional” manufacturing of composites
2. Optimization of fused deposition modeling (FDM) for short fibre reinforced composites
3. Modelling of 3D printed composites.
4. Properties of FFF 3D printed short fiber biocomposites.
5. Fatigue performance of 3D printed polymer matrix composites.
6. 3D-printing of continuous plant fibre composites.
7. 4D printed composite actuators.
8. How to Teach 4D Printing for Metamaterials and Soft Robotics?
9. Additive Manufacturing of Polymer Matrix Composites Via DIW Process
10. Selective laser sintering of polymer matrix composites.
11. 3D Stereolithography of Polymer Matrix Composites
12. Wet Fiber Placement for additive manufacturing with thermoset resins
13. Material extrusion additive manufacturing of continuous fibre reinforced polymer matrix composites.
14. Health monitoring of 3D printed structures
Fabienne Touchard is currently a Senior CNRS Researcher at PPRIME Institute, ISAE-ENSMA (Poitiers, France). She graduated as Mechanical and Aeronautical Engineer at ISAE-ENSMA in 1991. She got her PhD at the University of Poitiers in 1994 on the mechanical behavior of carbon/epoxy and carbon/PEEK composite materials, in collaboration with the AIRBUS Research Centre (Paris, France). She was hired as full time Research officer at CNRS in 1996. Fabienne Touchard is specialized in the field of microstructural and mechanical properties of polymers and polymer composites. Her research focuses on the characterization and optimization of interfacial adhesion quality, especially in natural fiber composites and 3D printed composites. She has authored and co-authored over 70 peer-reviewed journal articles. She has directed or co-directed 16 PhD theses. She has been responsible for 25 collaborative research programs

Fabrizio Sarasini received the Laurea degree (cum laude) in Materials Engineering and the Ph.D. degree in Materials Engineering from Sapienza University of Rome in 2002 and 2007, respectively. Since June 2019 he is Associate Professor of Materials Science and Technology at the Department of Chemical Engineering Materials Environment of Sapienza University of Rome. His research interests include the use of plant fibres in biopolymers for designing biocomposites with reduced environmental impact, fibre/matrix interfacial modification and assessment, the valorization of agro-industrial wastes as fillers in thermoplastic matrices (micro- and nanoscale), 3D printing of polymers and polymer matrix composites, the low and high velocity impact response of composite materials for structural applications. He has directed or co-directed three PhD theses and has been responsible for four collaborative research programs. He has more than 160 international peer-reviewed journal papers.


  • Provides an overview of different methods for additive manufacturing of polymer-based matrix composites
  • Covers long and short fiber-based composites and corresponding application examples
  • Addresses the development and properties of a wide range of matrices (thermoplastics, thermosets), and fibers (natural and synthetic) in a user-specified orientation, continuous or random organization and hierarchical structures
  • Presents sustainability and structural reliability of composite structures
  • Displays a careful balance between materials science and technology, providing a detailed understanding of how composites’ properties, processing, performance, and structure are interrelated

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