Multi-material Additive Manufacturing: Processing, Properties, Opportunities, and Challenges outlines various methods for the additive manufacturing of multi-material polymers, metals, ceramics, and metal-ceramics, showing readers how to tailor these materials with specific properties and specialized applications. The first section of the book discusses the role of machine and process parameters, the selection of raw materials, interface control, thermodynamic calculations, and process simulations. The second section covers additive manufacturing techniques for multi-materials, and the book concludes with a section covering the different multi-materials that can be produced and their various applications, such as in electronics, biomedical engineering, and high-end mechanical instruments.
1. Introduction to multi-material manufacturing
2. Role of Process parameters in multi-material manufacturing
3. Interface science in multi-material additive manufacturing
4. Thermodynamic calculation and process simulation
5. Print orientation comparison for multi-materials
6. Functionally graded additive manufacturing
7. Multi-material additive manufacturing methods and materials
8. Multi-material additive manufacturing of polymers
9. Multi-material additive manufacturing of metals and alloys
10. Multi-material additive manufacturing of multifunctional metal-ceramic structures
11. Challenges and Critical Issues of Various Multi-materials for Additive Manufacturing
12. Laser-Based Multi-material Additive Manufacturing
13. Electron Beam-Based Multi-material Additive Manufacturing
14. Laminated-Based Multi-material Additive Manufacturing
15. Multimaterial Additive Manufacturing of Sensors and Actuators
16. Biocompatibility and Biomedical engineering of multi-material additive manufacturing
17. Soft Multi-material Systems
18. Application of Multi-material additive manufactured structures in high end industries
19. Multi-material additive manufacturing and future scope and expected progress
Height:
Width:
Spine:
Weight:0.00