This book addresses tangible solutions for reutilization, recycling, and disposing of our generated industrial waste residue to promote sustainable development and tribological applications of industrial waste residues.
This book explores practical solutions for the reutilization, recycling, and disposal of industrial waste residues to foster sustainable development. It delves into both foundational concepts and recent advancements in the tribological applications of industrial waste residues as reinforcing phases in composite materials, with a focus on addressing the environmental impact of solid industrial waste. Additionally, the book highlights emerging themes such as decision-making algorithms, artificial intelligence, computational techniques, and machine learning in the context of industrial waste-reinforced composites.
Features:
- Provide up to date knowledge with current trends related to industrial waste management and their potential for utilization in composites.
- Emphasis on Industrial waste management laws and regulations, market dynamics, and new developments in waste reinforcement materials
- Includes ceramic matrix composites with industrial wastes as reinforcements
- Covers the broad application area of tribology by means of composite materials
- Discusses utilization of industrial wastes to strengthen biobased/bio-composites
This book is aimed at graduate students and researchers in materials science and civil engineering.
1. Recent Opportunities, Challenges, Characterization, and Applications
of Industrial Wastes
2. Advancements in Composite Materials: Harnessing
Industrial Wastes through Artificial Intelligence, Computational
Intelligence, and Machine Learning
3. Mechanical and Tribological
Characteristics of Industrial Waste-Filled Polymer Composites
4. A
Scientometric and Comprehensive Review of Utilization of Industrial Waste
Materials in Composites for Wind Turbine Blade Applications
5. Composite
Materials: Pioneering Sustainable Development through Energy Efficiency and
Emission Reduction
6. Current Insights into the Mechanical and Thermal
Characteristics of Silk Fibre-Based Polymer Composites
7. Effect of Marble
Dust-Reinforced Polymer Matrix Composite for Household Applications: A Review
8. Mechanical and Tribological Characteristics of Industrial Waste-Reinforced
Composites: A Comparative Study
9. Utilization of Industrial Waste in
Aluminum Matrix Composites: Advancing Sustainable Growth
10. Wear Analysis of
Industrial Waste-Reinforced Surface Composite (AA5083/SiC) Fabricated through
Friction Stir Process
11. Mechanical and Microstructural Characterisation for
GMAW Welded Joints of AA7475 T7351 Alloy
12. Applications of Industrial
Waste-Based Composites for Anti-Corrosion/Anti-Wear Coatings and for Civil
Engineering Infrastructures
13. Mechanical and Tribological Characteristics
of Industrial Waste-Reinforced Ceramic Composites
14. Industrial Waste Usage,
along with Ceramic Matrix Composites and Bio-Based Composites
15. Utilization
of Industrial Wastes to Strengthen Bio-Based Composites/Biocomposites
16.
Production of Bioactive Composite Materials from Agro-Food Industrial Waste
as a Contribution to the Circular Economy
17. Unlocking Industrial Waste:
Opportunities, Challenges, and Future Prospects
18. Utilization of Waste
Marble Dust in Kevlar Composites: A Sustainable Approach to Military and
Protective Applications
Mukesh Kumar is an associate professor in the Department of Mechanical Engineering at Malaviya National Institute of Technology, Jaipur, Rajasthan, India. He earned his Ph.D. in multiingredient friction composites. It deepens his expertise in R&D work related to composites, specifically polymer and metals/alloy matrixbased composites. He has proven his domainspecific dedication through 14 UG projects, 16 PG projects, and 4 Ph.D. projects. About 1 UG batch of 4 students, 1 PG student, and 2 Ph.D. projects are under his current supervision. He published over 55 research articles in prestigious SCI/Scopus journals published by reputable publishing houses like Taylor & Francis. In addition, he authored seven book chapters and seven reference books.
Dr. Ashiwani Kumar is an assistant professor in the Department of Mechanical Engineering at Feroze Gandhi Institute of Engineering and Technology, Raebareli, UP, India. He has shown excellent research expertise in the broad domain areas of tribology, nanomaterials, composite materials, and biomaterials. He had completed several projects funded by various agencies. He published over 50 papers in refereed SCI/Scopus journals published by reputable publishing houses like Taylor & Francis. Additionally, he authored about ten reference books and ten book chapters with renowned publishers. He has been awarded three patents.
Mr. Shivam Mishra is a research scholar in the Department of Mechanical Engineering at Malaviya National Institute of Technology (MNIT), Jaipur, Rajasthan, India. He is a young, dynamic researcher specializing in composite materials and tribological analysis. He has authored more than ten research papers published in reputed SCI/Scopusindexed journals and international conferences, published by reputable publishing houses like Taylor & Francis. His innovative work on integrating machine learning techniques for developing predictive models related to wear behavior and composite performance has received recognition and appreciation from leading research groups in the field.
Lisainfo e-raamatute kohta