Advanced Structural Textile Composites Forming
Characterization, Modeling, and Simulation
Published on 29. August 2024
Book
Paperback/Softback
666 pages
978-0-443-21578-0 (ISBN)
Description
Advanced Structural Textile Composites Forming: Characterization, Modeling, and Simulation comprehensively describes the influence of fiber/fabric architectures and properties on composites forming, along with their deformability and structural optimization, covering the latest advances in the composites forming field. Part one reviews textile reinforcement architectures and discusses the forming behaviors of important 2D and 3D fabrics. Part two discusses numerical models to conduct simulation analysis of different structural composites forming at mesoscopic and macroscopic scales, in particular, 3D preforms with through-the-thickness yarns.
Part three looks at the latest developments in the relationship between forming and other steps in composite manufacturing, such as resin injection, and automated fiber placement (AFP) and the effects on certain mechanical properties, such as structural damage and impact resistance. The book will be an essential reference for academic researchers, industrial engineers and materials scientists working with the manufacture and design of fiber-reinforced composite materials.
Part three looks at the latest developments in the relationship between forming and other steps in composite manufacturing, such as resin injection, and automated fiber placement (AFP) and the effects on certain mechanical properties, such as structural damage and impact resistance. The book will be an essential reference for academic researchers, industrial engineers and materials scientists working with the manufacture and design of fiber-reinforced composite materials.
More details
Series
Language
English
Place of publication
United States
Publishing group
Elsevier - Health Sciences Division
Target group
Professional and scholarly
Dimensions
Height: 229 mm
Width: 152 mm
Weight
1000 gr
ISBN-13
978-0-443-21578-0 (9780443215780)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Peng Wang | Nahiène Hamila
Advanced Structural Textile Composites Forming
Characterization, Modeling, and Simulation
E-Book
08/2024
Woodhead Publishing
€231.99
Available for download
Persons
Peng Wang is a Professor of mechanical engineering at ENSISA of the University of Haute-Alsace, France. His primary research interests and expertise encompass textile composites forming, mechanical properties of textile reinforcements and composites, structure optimization, and process simulation. He particularly focuses on optimizing the manufacturing process and improving the service performance of composites by thoroughly studying the deformation behavior during the forming process of fiber-reinforced preforms.
Nahiene Hamila is a Professor at the Dupuy De Lome Research Institute, Brittany, France. His research work focuses on modelling and simulation of composite material, and to this end he has developed constitute model models for dry or prepreg composite reinforcements in a multiphysics and multi-scale framework. The specificity of his work lies in the link he establishes between the manufacturing process and the properties induced on the behavior of structural parts and their durability.
Nahiene Hamila is a Professor at the Dupuy De Lome Research Institute, Brittany, France. His research work focuses on modelling and simulation of composite material, and to this end he has developed constitute model models for dry or prepreg composite reinforcements in a multiphysics and multi-scale framework. The specificity of his work lies in the link he establishes between the manufacturing process and the properties induced on the behavior of structural parts and their durability.
Content
Part I: Mechanical properties of textile reinforcements and their formability
1. Classification of fibre reinforcement architecture
2. Characterizing the forming mechanics of woven engineering fabrics
3. Mechanical behaviours of the braided fabrics during the forming
4. Forming of Non Crimp Fabrics
5. Deformability and Preforming characterization of non-woven fabrics
6. Specificities of flax reinforcements: from plant growth to the forming of advanced composite materials
7. Formability of Warp and Weft Bound 3D Weaves for Composite Reinforcements
8. Formability of 3D orthogonal interlock woven composite reinforcement
9. Formability of through-the-thickness tufted reinforcements
Part II: Forming modelling and simulations
10. Analyse and modelling of forming process at the meso-scale
11. Forming simulations with macroscopic approach
12. Modelling and simulation of the 3D interlock woven fabric forming
13. Thermo-Mechanical Modeling and Experimental Characterization of Continuous Fiber Reinforced Thermoplastic Composites at Forming Temperatures
14. Modeling of the forming Process for Multiple-Layer UHMWPE Incorporating Bending and Thickness Behaviors
15. Emerging Fast Simulations using Material Point Method
Part III: Properties induced by the forming of structural textile composites
16. Textile composite damage analysis taking into account the preforming process
17. Composite preforming defects classification, involved mechanisms and induced mechanical properties
18. Stabbing and ballistic resistances of the pre-deformed multi-ply three-dimensional interlock fabrics
19. Fundamentals of fluid flow in fibrous preforms
20. Composite parts designed for Tailored Fiber Placement technology and the related manufacturing processes
21. Combining simulation methods and machine learning for efficient forming process development
22. An industrial perspective on the present and future of thermoforming of prepregs: applications, trends and challenges
1. Classification of fibre reinforcement architecture
2. Characterizing the forming mechanics of woven engineering fabrics
3. Mechanical behaviours of the braided fabrics during the forming
4. Forming of Non Crimp Fabrics
5. Deformability and Preforming characterization of non-woven fabrics
6. Specificities of flax reinforcements: from plant growth to the forming of advanced composite materials
7. Formability of Warp and Weft Bound 3D Weaves for Composite Reinforcements
8. Formability of 3D orthogonal interlock woven composite reinforcement
9. Formability of through-the-thickness tufted reinforcements
Part II: Forming modelling and simulations
10. Analyse and modelling of forming process at the meso-scale
11. Forming simulations with macroscopic approach
12. Modelling and simulation of the 3D interlock woven fabric forming
13. Thermo-Mechanical Modeling and Experimental Characterization of Continuous Fiber Reinforced Thermoplastic Composites at Forming Temperatures
14. Modeling of the forming Process for Multiple-Layer UHMWPE Incorporating Bending and Thickness Behaviors
15. Emerging Fast Simulations using Material Point Method
Part III: Properties induced by the forming of structural textile composites
16. Textile composite damage analysis taking into account the preforming process
17. Composite preforming defects classification, involved mechanisms and induced mechanical properties
18. Stabbing and ballistic resistances of the pre-deformed multi-ply three-dimensional interlock fabrics
19. Fundamentals of fluid flow in fibrous preforms
20. Composite parts designed for Tailored Fiber Placement technology and the related manufacturing processes
21. Combining simulation methods and machine learning for efficient forming process development
22. An industrial perspective on the present and future of thermoforming of prepregs: applications, trends and challenges