Modelling of Damage Processes in Biocomposites, Fibre-Reinforced Composites and Hybrid Composites Woodhead Publishing Series in Composites Science and Engineering Series
Coordonnateurs : Jawaid Mohammad, Thariq Mohamed, Saba Naheed
Modelling of Damage Processes in Biocomposites, Fibre-Reinforced Composites and Hybrid Composites focuses on the advanced characterization techniques used for the analysis of composite materials developed from natural fiber/biomass, synthetic fibers and a combination of these materials used as fillers and reinforcements to enhance materials performance and utilization in automotive, aerospace, construction and building components. It will act as a detailed reference resource to encourage future research in natural fiber and hybrid composite materials, an area much in demand due to the need for more sustainable, recyclable, and eco-friendly composites in a broad range of applications.
Written by leading experts in the field, and covering composite materials developed from different natural fibers and their hybridization with synthetic fibers, the book's chapters provide cutting-edge, up-to-date research on the characterization, analysis and modelling of composite materials.
1. Introduction 2. Low-cost simulation of guided wave propagation in notched plate-like structures 3. Modelling of crash behavior of thermoset composites 4. Finite element modelling of natural fibre based hybrid composites 5. The effect of cut out on thin wall plates 6. Finite element modelling of natural fibre based hybrid composites 7. Directional damage gradient modelling of polymeric composites 8. Micromechanical modelling of damage and partially de-bonded interfaces of polymer composite materials 9. Numerical modelling of hybrid composite materials 10. Multi scale modelling based on stiffness degradation of composite materials 11. Percolation modelling of hybrid polymer composites 12. Computationally efficient modelling of the woven composites under uniaxial stress 13. Progressive damage modelling of natural/synthetic fiber polymer composites under ballistic impact 14. Investigation of damage processes of microencapsulated self-healing mechanism in glass fibre reinforced polymers 15. Understanding the durability of long sacred grass/Imperata cylibdrica natural/hybrid FRP composites 16. Element analysis of natural fibre reinforced polymer composites
materials science and engineering especially polymer and composite technology, chemical and environmental engineering
Dr. Mohammad Jawaid is currently affiliated with the Department of Chemical and Petroleum Engineering at United Arab Emirates University. Previously he was a senior fellow (professor) in the Laboratory of Biocomposites Technology at the Institute of Tropical Forestry and Forest Products (INTROP), Universiti Putra Malaysia. He is an eminent scientist with more than twenty years of teaching, and research experience in composite materials. His research interests include hybrid reinforced/filled polymer composites, and advanced materials such as graphene/
nanoclay/fire retardant, lignocellulosic reinforced/filled polymer composites, and the modification and treatment of lignocellulosic fibres and solid wood, and nanocomposites and nanocellulose fibres.
Prof. Mohamed Thariq Bin Haji Hameed Sultan received his PhD from the University of Sheffield (UK). He has 18 years of experience in teaching as well as in research. His research interests include hybrid composites, advanced materials, structural health monitoring, and impact studies. He is a Professional Engineer registered with the Board of Engineers of Malaysia, a Professional Technologist registered with the Malaysian Board of Technologists, and a Charted Engineer registered with the Institution of Mechanical Engineers of the United Kingdom. He is also the current Director of UPM Press. He actively publishes both journal papers and books and has received many awards both locally and internationally.
Naheed Saba completed her PhD in Biocomposites from the Institute of Tropical Forestry and Forest Products (INTROP), Universiti Putra Malaysia (UPM), Malaysia. She has published over 20 scientific and engineering articles in advanced composites, as well as one book and 8 book chapters. Dr. Saba’s research interests lie in nanocellulosic materials, fire retardant materials, natural fiber reinforced polymer composites, biocomposites, hybrid composites and nanocomposites.
- Contains contributions from leading experts in the field
- Discusses recent progress on failure analysis, SHM, durability, life prediction and the modelling of damage in natural fiber-based composite materials
- Covers experimental, analytical and numerical analysis
- Provides detailed and comprehensive information on mechanical properties, testing methods and modelling techniques
Date de parution : 12-2018
Ouvrage de 252 p.
15x22.8 cm
Thème de Modelling of Damage Processes in Biocomposites... :
Mots-clés :
ANSYS; Axial deformation; Ballistic limit; Buckling coefficient; Capsule-based composite; Carbon fiber-reinforced epoxy composites; Carbon fiber-reinforced plastic; Central circular cut-outs; Cole–Cole plot; Composite laminate; Crashworthiness; Crushing mechanisms; Damage; Failure modeling; Fiber-reinforced matrix systems; Fiber-reinforced plastics; Finite element analysis; Finite element formulations; Finite element method; Finite element model; Finite element simulation; Finite strain deformation; First-order shear deformation kinematic theory; Functionally graded material; Hemispherical projectile; High temperature; High velocity impact; Higher-order shear deformation theory; High-velocity impact; HSDT; Hybrid composite; Hybrid composites; Matrix; Mechanical and thermal analysis; Mesh sensitivity analysis; Micromechanical material modeling; Multiple criteria decision making; Natural fiber composites; Natural fibers; Numerical modeling
