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The text presents advances in the field of thermal claddings for protection against erosion, corrosion, and wear in hydraulic turbines, automobiles, agricultural equipment, power plant, chemical industries, and jet engines.
The text presents advances in the field of thermal claddings for protection against erosion, corrosion, and wear in hydraulic turbines, automobiles, agricultural equipment, power plant, chemical industries, and jet engines.
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Autorenporträt
Dr. Lalit Thakur is a faculty member of the Department of Mechanical Engineering at the National Institute of Technology Kurukshetra, India. He has obtained his M.Tech. and Ph.D. degrees from the Indian Institute of Technology (I.I.T.) Roorkee, India. For the last 13 years, he is continuously exploring new possibilities in the field of Welding Engineering and Thermal Spray Technology. His current research areas are thermal spray coatings and TIG weld claddings for wear, corrosion, bio-medical applications, ferromagnetic lubricants, advanced composite development by powder metallurgy, stir casting, and friction stir processing. He has authored more than 60 research articles in various International Journals (SCI/Scopus), Conferences, and Edited Books of reputed publishers such as Applied Surface Science, Surface and Coatings Technology, Surface Engineering, Surface Topography, Tribology Transactions, Wear, JMEP, JMST, Materials Today Communications, Engineering Failure Analysis, Materials Research Express, Surface Review & Letters, CRC Press, Springer Nature, IntechOpen, etc. Moreover, he is a reviewer of most of the reputed journals related to Materials Science, Surface Engineering, and Coatings Technology. He has recently published a book titled "Thermal Spray Coatings" under CRC Press, Taylor & Francis Group. He is also a Life-member of the Institution of Engineers India (IEI) and Indian Structural Integrity Society (INSIS). He has published two patents in the field of thermal spray coatings and friction stir processing. He has guided many M.Tech. and Ph.D. scholars in emerging areas of Thermal spraying, Advanced Manufacturing, and Welding Technology. Dr. Jasbir Singh is an Assistant Professor at Gurukula Kangri University, Haridwar-India. He has received his M.Tech and Ph.D. degrees from the National Institute of Technology, Kurukshetra-India. His area of research is thermal weld cladding especially for the development of new materials and claddings to enhance the service life of engineering equipment that are exposed to extreme wear conditions. He has contributed extensively in weld claddings in repute journals which include Surface coatings and Technology, International Journal of Refractory Metals and Hard Materials and Surface Engineering. He has authored more than 10 International publications in various International Journals and conferences. He has a teaching experience of more than ten years. Dr. Hitesh Vasudev is currently working as Associate Professor at Lovely Professional University, Phagwara-India. He has received Ph.D. in Mechanical Engineering from Guru Nanak Dev Engineering College, Ludhiana-India in 2018 (Affiliated to IKGPTU-Jallandhar). His area of research is thermal spray coatings, especially for the development of new materials used for high-temperature erosion and oxidation resistance and microwave processing of materials. He has contributed extensively in thermal spray coatings in repute journals which include Surface coatings and Technology, Materials Today Communications, Engineering Failure Analysis, Journal of Cleaner Production, Surface Topography: Metrology and Properties, Surface Reviews & Letters, and Journal of failure prevention and control, International Journal of Surface Engineering and Interdisciplinary Materials Science under the flagship of various publication groups such as Elsevier, Taylor & Francis, 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 journals etc. He has authored more than 30 International publications in various International Journals and conferences. He has published 15 book 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 eight years. He received a "Research Excellence" award in 2019 at Lovely Professional University, Phagwara, India. He has organized a National Conference and has been a part of many International Conferences.
Inhaltsangabe
1. Fundamental & Applications of Thermal Claddings. 2. Improved room and high-temperature wear performance with Inconel 625 TIG weld cladding. 3. Corrosion and microstructural behaviour of Inconel 625 microwave clad deposited on mild steel. 4. Artificial intelligence revolutionizing the laser cladding industry. 5. Multi-objective Optimization of Wire Arc additive manufacturing deposition using Genetic algorithm. 6. Techniques for improving engineering material tribological performance using Laser cladding process in laser surface texturing. 7. Prediction and Performance of thermal cladding using artificial intelligence and Machine Learning: Design analysis and simulation. 8. Evolution of Nickel based Superalloy Claddings for against High Temperature Oxidation and Wear. 9. Enhancing the Durability and Performance of High-Value Components through Thermal Cladding: A Study on Materials and Process Parameters for Repair, Re-fabrication, and Re-manufacturing. 10. Application of Thermal claddings for materials used as biomedical implants. 11. Study on the thermal claddings used in biomedical implants. 12. Nanostructured Thermal Claddings for Improved Life and Performance of Engineering Components. 13. Wire Arc Additive Manufacturing: Study of Microstructure and Defects. 14. Development of MoCoCrSi/Flyash Composite Cladding on Stainless Steel Substrate through Microwave Irradiation. 15. Advantages and applications of various surface engineering techniques.
1. Fundamental & Applications of Thermal Claddings. 2. Improved room and high-temperature wear performance with Inconel 625 TIG weld cladding. 3. Corrosion and microstructural behaviour of Inconel 625 microwave clad deposited on mild steel. 4. Artificial intelligence revolutionizing the laser cladding industry. 5. Multi-objective Optimization of Wire Arc additive manufacturing deposition using Genetic algorithm. 6. Techniques for improving engineering material tribological performance using Laser cladding process in laser surface texturing. 7. Prediction and Performance of thermal cladding using artificial intelligence and Machine Learning: Design analysis and simulation. 8. Evolution of Nickel based Superalloy Claddings for against High Temperature Oxidation and Wear. 9. Enhancing the Durability and Performance of High-Value Components through Thermal Cladding: A Study on Materials and Process Parameters for Repair, Re-fabrication, and Re-manufacturing. 10. Application of Thermal claddings for materials used as biomedical implants. 11. Study on the thermal claddings used in biomedical implants. 12. Nanostructured Thermal Claddings for Improved Life and Performance of Engineering Components. 13. Wire Arc Additive Manufacturing: Study of Microstructure and Defects. 14. Development of MoCoCrSi/Flyash Composite Cladding on Stainless Steel Substrate through Microwave Irradiation. 15. Advantages and applications of various surface engineering techniques.
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