This book showcases advances in composite materials, hybrid systems, and additive manufacturing, connecting scientific principles with practical industrial applications. Authored by specialists from both academia and industry, it merges foundational knowledge with practical insights. The text commences with the development of metal matrix composites and progresses to advances in additive manufacturing within the framework of industry 5.0. The discussion extends to chemical treatments of natural fibers and next-generation polymer nanocomposites aimed at achieving tribological excellence, with a focus on both performance and sustainability. It further investigates sophisticated materials for hydrogen storage utilizing hybrid materials followed by magneto-electric nanocomposites for precise drug delivery, and the effects of CdSe and ZnSe nanoparticles on P3HT, where photothermal deflection spectroscopy reveals pathways for solar cells and optoelectronic devices. Applied dimensions include performance evaluations of disc brake materials (using SolidWorks and ANSYS), innovative coatings, and environmentally friendly mono and hybrid nanoparticle cutting fluids in minimum quantity lubrication for sustainable machining. The text also delves into composite strategies for managing solar PV waste and reinforced UHMWPE for wear-resistant biomedical joint applications. By integrating perspectives from materials, manufacturing, energy, healthcare, and environmental considerations, this volume provides a thorough overview of sustainable technological progress.
1. Fundamentals of Composite Materials.
2. From Traditional to Cutting
Edge: The Evolution of Metal Matrix Composites Manufacturing Processes.
3.
Advances in Additive Manufacturing in the Evolving Paradigm of Industry 5.0.
4. Recent Progress in the Chemical Treatment of the Natural Fibre,
Characterization and Enhancing Flame Stability of Composite through Fire
Retardants: A Comprehensive Review.
5. Next-Generation Polymer
Nanocomposites: Pioneering Innovations for Tribological Excellence in
Advanced Applications.
6. Solid State Hydrogen Storage: Hybrid Materials
Exploring the Fundamentals, Challenges, and Integration of Renewable Energy
for Sustainability.
7. Magneto-Electric Nanocomposites: Mechanisms,
Applications, and Future Perspectives in Drug Delivery Applications.
8.
Effect of CdSe and ZnSe Nanoparticles on the Optical Characteristics of P3HT
for Optoelectronics: A Photothermal Deflection Spectroscopy Study.
9.
Performance Analysis of Disc Brake Materials Using FEA Tools: Solid Works and
ANSYS.
10. Coating of Materials.
11. Eco-Friendly Mono and Hybrid
Nanoparticle Cutting Fluids in Minimum Quantity Lubrication: A Review on
Sustainable Machining.
12. Advancement in Composite Materials for Sustainable
Management of Solar PV Panel Waste.
13. Advancements in Polymer Engineering:
Reinforced UHMWPE for High Wear Resistance Biomedical Joint Applications
Prof. Dr. Rajesh Kumar Verma is a Professor in the Department of Mechanical Engineering, Harcourt Butler Technical University (HBTU) Kanpur India. He was an Additional Controller of Examinations and Finance Controller (FC) of HBTU. He has a PhD (Engineering) from Jadavpur University, Kolkata, India. He is a Chartered Engineer by the Institution of Engineers (India). He is actively involved in teaching and research in nanomaterial, polymer composites, modeling, simulation, optimization, advanced machining, and machinability estimation of composites/nanocomposite materials. Dr. Verma has supervised 6 PhD and 13 Masters theses; with another 5 PhDs ongoing. He has published over 150 peer-reviewed articles in major refereed journals and conference proceedings. The e-content and courses he developed are widely used. He has over 10 completed and ongoing research and development (R&D). He has filed 15 patents and 3 copyright registered documents in India. Dr. Verma received the prestigious Research Excellence Award-2023 (REA-2023), Research Excellence Award- 2024 (REA-2024) and Research Excellence Award- 2025 (REA-2025) the for his exemplary research work. His research proposal secured second rank in competition, from Uttar Pradesh Pollution Control Board (UPPCB), Lucknow in 2018, and received the Best Paper Awards at the PRIME2021 and the ICMPC2021 conferences. He is a reviewer for various international journals. Moreover, Dr. Verma has been invited as Keynote/Invited Speaker, Section Chair, and member for several international conferences with themes in Mechanical & Production Engineering, Emerging Materials, and Manufacturing Science. He has developed various nanomaterials for structural applications and proposed hybrid optimization modules recognized by multiple peer-reviewed journal publishers.
Dr. Devendra Kumar Singh is a Research Associate-I in an R&D-sponsored DST project at the Department of Mechanical Engineering, Harcourt Butler Technical University, Kanpur, India. Also, he has worked on R&D sponsored by Uttar Pradesh Council of Science and Technology (UPCST). He is a Life Member of the Asian Polymer Association. His research interests focus on nanomaterial synthesis and development, Bio nanocomposites, numerical modeling, and surface texturing. He has published 13 peer-reviewed articles in refereed international journals and conference proceedings. Additionally, he has filed 4 design patents and 1 process patents, 2 edited book, 2 book chapters and has 1 copyright registered document in India. He has also utilized various nanomaterial-reinforced bio nanocomposites for biomedical applications and developed hybrid metaheuristic optimizing methodologies recognized by multiple peer-reviewed journals and book publishers.
Dr. Arpan Kumar Mondal is an Assistant Professor in the Department of Mechanical Engineering at the National Institute of Technical Teachers' Training and Research (NITTTR) in Kolkata. He has a PhD in Mechanical Engineering from the Indian Institute of Technology (IIT) Guwahati (2018), focusing on submerged arc welding. Dr. Mondal also holds an M Tech from the National Institute of Technology (NIT) Rourkela and a B Tech from the West Bengal University of Technology, Kolkata. His research interests lie in manufacturing engineering, with a significant focus on welding processes, composite materials, and numerical modeling. Dr. Mondal has published extensively, authoring over 20 journal papers and numerous conference papers. He has also contributed to several book chapters in the field of mechanical engineering. In addition to his publications, Dr. Mondal holds several patents, highlighting his contributions to innovation in mechanical engineering. He has been actively involved in teaching and research since 2011, first as a teaching assistant at IIT Guwahati and later as an assistant professor at NITTTR Kolkata.
Prof. Dr. Panagiotis Kyratsis ("http://www.kyratsis.com"www.kyratsis.com) is the Head of the Department of Product and Systems Design Engineering, University of Western Macedonia, Greece. He is the Director of the Institute of Traditional Architecture and Cultural Heritage, University Research Centre TEMENUS and Director of the Computational Design and Digital Fabrication Research Laboratory. Prof. Panagiotis Kyratsis has a PhD in CAD-based manufacturing process simulations from the Department of Production Engineering and Management, Technical University of Crete, Greece. He holds a diploma in Mechanical Engineering from the Aristotles University of Thessaloniki, Greece, and a M.Sc. in Automotive Product Engineering and M.Sc. in CAD/CAM from Cranfield University, UK, in 1997 and 1999 respectively. He has been involved in a number of industrial projects and he has a great deal of expertise in both the design and the manufacturing aspects of product development. His research interests include manufacturing, machining, CAD/CAM/CAE systems, product design, reverse engineering and prototyping. He has published more than 20 books and more than 180 papers in scientific journals and international conferences. He is a member of the editorial board and reviewer to numerous scientific journals and holds 12 industrial designs and two patents registered with the Greek Patent Office.
