Additively Manufactured Smart Materials and Structures: Design, Processing, and Applications provides a critical overview of the fabrication, design, processing, characterization, structure-property relationships, and applications of 3D printed smart materials. The book practically outlines design strategies and manufacturing techniques across a variety of disciplines, including membrane technology, catalysis, batteries, supercapacitors, sensing, biosensing, aerospace, automobile, construction, and biomedical. Users will find a critical evaluation of the scientific literature that has already been published to highlight the significance, the technoeconomic aspects, the major difficulties, and the benefits and drawbacks of additively built smart materials.
Advanced 3D printing techniques, including stereolithography (SLA), fused deposition modeling (FDM), selective laser sintering (SLS), electron beam melting (EBM), direct ink writing (DIW), and 3D plotting are discussed in detail. The book also offers a thorough analysis of the microstructure, mechanical, thermal, and surface properties of smart materials and structures produced using additive manufacturing.
Advanced 3D printing techniques, including stereolithography (SLA), fused deposition modeling (FDM), selective laser sintering (SLS), electron beam melting (EBM), direct ink writing (DIW), and 3D plotting are discussed in detail. The book also offers a thorough analysis of the microstructure, mechanical, thermal, and surface properties of smart materials and structures produced using additive manufacturing.
Table of Contents
1. Advanced Additive Manufacturing Technologies: Methods, Instrumentation, Materials and Key Requirements, Design Optimizations, Advantages and Limitations2. Fabrication of Smart Materials and Structures by Additive Manufacturing Techniques
3. Microstructure, Mechanical and Surface Properties of Additively Manufactured Materials
4. Additive Manufacturing of Metals and Superalloys
5. Additively Manufactured Thermoelectric and Magnetoelectric Materials
6. Additively Manufactured Ceramics and Metamaterials: Prospects and Challenges
7. Additively Manufactured Stimuli Responsive Materials and Structures
8. Polymer Nanocomposites Based Additively Manufactured Smart Materials and Structures
9. Additively Manufactured Hydrogels: Recent Developments and Future Perspectives
10. Surface Modification and Surface Coating Techniques of Additively Manufactured Materials and Structures
11. Numerical Simulations and Computational Modelling of Additively Manufactured Materials and Structure
12. New Frontiers and Applications of Machine Learning Tools in Additive Manufacturing
13. Additively Manufactured Smart Materials and Structures in Membrane Technology
14. Additively Manufactured Smart Materials and Structures for Catalytic Applications
15. Additively Manufactured Smart Materials and Structures for Batteries and Supercapacitors
16. Additively Manufactured Smart Materials and Structures for Electrochemical Sensing and Bionsensing
17. Additively Manufactured Smart Materials and Structures for Automobile and Aerospace Applications
18. Additively Manufactured Smart Materials and Structures in Construction and Building Applications
19. Additively Manufactured Smart Materials and Structures for Various Biomedical Applications
20. Techno-economic Aspects and Perspectives of Additive Manufacturing Techniques in Industry 4.o Revolution
21. Life Cycle Assessment of Additive Manufactured Products and Impact of Additive Manufacturing on the Environment and Supply Chain Management
Authors
Rajkumar Velu Additive Manufacturing Research Laboratory, Department of Mechanical Engineering, Indian Institute of Technology Jammu, J&K, India. Dr. Rajkumar Velu is an Assistant Professor at the Indian Institute of Technology, Jammu. He held positions as a Post-Doctoral Research Fellow at the Digital Manufacturing and Design Centre (DManD), Singapore University of Technology and Design, and a Research Fellow at the Centre for Laser Aided Intelligent Manufacturing (CLAIM), University of Michigan. Dr Velu is also the recipient of the prestigious GATE scholarship. Dr. Velu's research focuses on engineering design, optimization, and the creation of innovative manufacturing techniques (additive manufacturing) and materials for designing and fabricating for biomedical and aerospace applications. Kalim Deshmukh Senior Researcher, New Technologies - Research Centre, University of West Bohemia, Czech Republic. Kalim Deshmukh is a Senior Researcher at the New Technologies-Research Centre, University of West Bohemia, Pilsen, Czech Republic. He has over 20 years of research experience working with various nanostructured materials, and polymeric materials, especially polymer blends, and nanocomposites for numerous applications. His research interest is mainly focused on the synthesis, characterization,and evaluation of the structure-property relationships of different polymers reinforced with various nanofillers including metal and metal oxide nanoparticles, carbon allotropes, and novel 2D nanomaterials for energy storage, gas sensing and EMI shielding applications. Inigo Flores Ituarte Automation Technology and Mechanical Engineering, Faculty of Engineering and Natural Sciences, Tampere University, Finland. Inigo Flores Ituarte is a research professor and industry professional whose research focuses on optimization-driven design and manufacturing, engineering design, digital design, and advanced manufacturing. The overarching research goal of his research lab is how to engineer digital design and manufacturing systems that maximize product and process performance while improving cost-effectiveness, efficiency on energy and raw materials utilization, and minimize environmental impact. Anand Kumar Subramaniyan Indian Institute of Technology Jammu, J&K, India. Dr. Anand Kumar Subramaniyan is Assistant Professor at the Indian Institute of Technology Jammu. His research specialty is in the field of manufacturing engineering with a specialized focus on additive manufacturing.
