1st Edition
Handbook of Laser-Based Sustainable Surface Modification and Manufacturing Techniques
This handbook provides an insight into the advancements in surface engineering methods, addressing the microstructural features, properties, mechanisms of surface degradation failures, and tribological performance of the components. Emphasis is placed on the use of laser cladding methods because they make it simple to deposit new classes of materials such nano-composites, nanotubes, and smart materials.
Handbook of Laser-Based Sustainable Surface Modification and Manufacturing Techniques discusses the main mechanism behind the surface degradation of structural components in strenuous environments. It highlights the capacity of laser cladding to operate on a wide range of substrate materials and shapes as well as presents how laser cladding can offer new possibilities in the reconditioning of components and how, in many cases, these approaches are the only solution for economic efficiency. The handbook illustrates how the type of laser, laser optics, and the parameters of the process can be efficiently selected, and thus the number of applications of laser cladding and its applications can be increased. The standard methods of testing used for various types of biomedical devices and tools, as well as the advantages of combining laser cladding with simultaneous induction heating, are described as well within this handbook.
Features:
- Discusses the role of claddings fabricated with laser technique to withstand wear and corrosion
- Highlights the role of laser in the manufacturing of alloys and recent advancements in laser based additive manufacturing processes
- Presents the possibilities, applications and challenges in laser surfacing
- Illustrates the post-treatments of powders and coatings and case studies related to laser surface technology
- Offers the standard methods of testing applied to various types of biomedical devices and tools
- Goes over the advantages of combining laser cladding with simultaneous induction heating
The technical outcomes of these surface engineering methods are helpful for academics, students, and professionals who are working in this field, as this enlightens their understanding of the performance of these latest processes. The audience is broad and multidisciplinary.
Chapter 1 Application of Wear-Resistant Laser Claddings
Natarajan Jeyaprakash, Sundara Subramanian Karuppasamy, and Che-Hua Yang
Chapter 2 Application of Corrosion-Resistant Laser Claddings
Sundara Subramanian Karuppasamy, Natarajan Jeyaprakash, and Che-Hua Yang
Chapter 3 A Comprehensive Analysis of Recent Advancements and Future Prospects in Laser-Based Additive Manufacturing Techniques
Amrinder Mehta, Hitesh Vasudev, Chander Prakash, Sharanjit Singh, and Kuldeep K. Saxena
Chapter 4 Microstructure and Characteristics of Alloys Produced by Additive Laser-Based Manufacturing Technique
Amrinder Mehta, Hitesh Vasudev, Chander Prakash, Sharanjit Singh, and Kuldeep K. Saxena
Chapter 5 Laser Surface Engineering: State of the Art, Applications, and Challenges
Gaurav Prashar and Hitesh Vasudev
Chapter 6 Laser Surface Engineering: Case Studies
Gaurav Prashar and Hitesh Vasudev
Chapter 7 Applications of Laser Technology for Processing and Post-Treatments of Powders and Coatings
Jashanpreet Singh
Chapter 8 Sustainability Issues in Laser-Based Additive Manufacturing
Jashanpreet Singh
Biography
Prof. Hitesh Vasudev, is currently working as professor in the School of Mechanical Engineering and Division of Research and Development at Lovely Professional University, Phagwara, India. He received a Ph.D. in Mechanical Engineering from Guru Nanak Dev Engineering College (affiliated to IKGPTU-Jalandhar), Ludhiana, India in 2018. His area of research is thermal spray coatings, especially for the development of new materials used for hightemperature erosion and oxidation resistance and microwave processing of materials.
He has contributed extensively in thermal spray coatings in repute journals including Surface Coatings and Technology, Materials Today Communications, Engineering Failure Analysis, Journal of Cleaner Production, Surface Topography: Metrology and Properties, Journal of Failure Prevention and Control and International Journal of Surface Engineering and Interdisciplinary Materials Science under the flagship of various publication groups such as Elsevier, Taylor & Francis Group, Springer Nature, IGI Global, and InTech Open. Moreover, he is a dedicated reviewer of reputed journals such as Surface Coatings and Technology, Ceramics International, Journal of Material Engineering Performance, Engineering Failure Analysis, Surface Topography: Metrology and Properties, Material Research Express, Engineering Research Express and IGI Global. He has authored more than 30 international publications in various international journals and conferences.
He has published 15 chapters in various books related to surface engineering and manufacturing processes. He has also published a unique patent in the field of thermal spraying. He has teaching experience of more than 8 years. He received a “Research Excellence Award” in 2019, 2020, and 2021 at Lovely Professional University, Phagwara, India. He has organized a national conference and has participated in many international conferences.
Dr. Chander Prakash is a professor and dean in the Division of Research & Development/School of Mechanical Engineering at Lovely Professional University, India. He graduated from the Panjab University Chandigarh in 2016 with Ph.D. in Mechanical Engineering. He is also an Adjunct Professor (Honorary position) at the Institute for Computational Science, Ton Duc Thang University, Vietnam.
He is a dedicated teacher who embraces studentcentric approaches, providing experiential learning to his students. He is a passionate researcher with diversified research interests – developing materials for biomedical and healthcare applications, additive manufacturing, and developing and exploring new cost-effective manufacturing technologies for biomedical industries. To date, he has published more than 325 scientific articles in various peer-reviewed reputed top-notch journals, conferences, and books in Materials Science and Manufacturing.
Dr. Prakash is a highly cited researcher at the international level, and he has 5513 citations, an H-index of 41, and an i-10 index of 123. He is one of the Top 1% of leading scientists in Mechanical and Aerospace Engineering in India, as per Research.com. He holds the 38th rank in India and the 1590th rank in the world. He also consistently appeared in the top 2% of researchers as per Stanford Study in 2021 and 2022.
Dr. Prakash edited/authored 25 books, serving as a series editor of 2 books, serving as guest editor, and serving as an editorial board member of journals. He is working on research commercialization and has published 18 patents. His four patents were granted. Dr. Prakash raised a fund of Rs. 21.50 Lakhs for “Wire Arc Additive Manufacturing for Industrial Application” under the PRISM scheme of the Ministry of Science & Technology, India in 2022. He received a grant of Rs. 3.00 Lakhs from UKIERI-DST for Partnership Development Workshops on “Medical Additive Manufacturing Cost-effective and Sustainable Solutions for Innovative Development of High-Value Added Products and Services Testing” in collaboration with University of Greenwich, UK and Cardiff University, UK.
Dr. Prakash has organized three series of the signature International Conference on Functional Materials Manufacturing and Performances (ICFMMP) in 2019, 2021, and 2022. Recognizing his contribution to research and development, Lovely Professional University awarded him Research Excellence Award for the best and most highly productive researcher in 2019, 2020, and 2021.
