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Full Description
3D Printing of Polymer Composites: Fibers, Particles and Matrix explores in detail the complexities of the dynamic interplay between these three components and their interactions in the polymer-based 3D printing process. The book includes information on the theoretical foundations as well as practical applications. The book provides insights into optimizing material compositions, overcoming challenges related to fiber and particle integration, and to enhancing the overall print quality of the material and final component. The book will be a valuable reference resource that educates the researcher on the intricacies of this technology, enabling them to make informed decisions, to troubleshoot key challenges, and to push the boundaries on what is possible in the future for polymer-based additive manufacturing.
Contents
Section 1: Introduction and Advances in 3D Printing of Polymer Composites
1. 3D-Printing: The state of the art- Introduction
2. Advances in additive manufacturing of polymer composites: Material and binder jetting, Sheet lamination, and SLS innovations
3. Advancements in the reinforcement strategies of SLA and DLP printing of polymer composites
4. The role of artificial intelligence, machine learning, and finite element modelling in additive manufacturing of polymer composites
5. Optimization of process parameters for the 3D printing of composites: Materials a key deciding factor
Section 2: Fiber Reinforcement Strategies in 3D Printing
6. Natural and Synthetic Fibers: Pathway to eco-friendly and high-performance 3D printing of lightweight composites
7. The role of synthetic fibers in 3D printing: Continuous and Discontinuous Fibers Effect
8. Effect of surface treatment on fiber wettability and Static-Dynamic, Thermal, and Water absorption characteristics of natural/synthetic fibers-based 3D printed composites
9. Effect of fiber size and reinforcement percentage over the 3D printability of polymer composites
10. Thermoplastics-Matrix for 3D printing: Types, Filament/Component Manufacturing, Characterization
11. Role of thermosets in 3D printing: Latest advancements & Challenges
Section 3: Fillers, Nanomaterials, and Performance in 3D Printing
12. Influence of organic/inorganic fillers on the performance behavior of 3D printing of composites: pros and cons
13. Tribological behavior of filler reinforced 3D printed composites: influence of inorganic/organic and solid lubricants
14. Effect of size, shape, and loading contents of the fillers in polymer composites for additive manufacturing.
15. Nanomaterials on 3D printing: Types, Development, and Characterization
16. Numerical Simulation of Particle reinforced 3D printed composites.
Section 4: Applications and Environmental Impact of 3D Printing
17. Hybrid Metal-Plastic Structures: Next Generation of 3D-Printing- Manufacturing Techniques and Applications
18. Recycled materials in polymer additive manufacturing: A cost-effective approach
19. Role of composites 3D printing in automobile and construction components
20.Influence of particles and fibers with matrix on the 3D printing of composites for medical applications
21. Effect of particles and fibers on the 3D printing of components for Energy storage and electronics applications
22. Impact of fibers, particles, and matrix in the waste reduction of 3D printed composites: Carbon footprint approaches
23. Life Cycle Assessment (LCA) of 3D Printed Composites: A Perspective Review
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