In the rapidly evolving world of mechanical systems, lubricants play a critical role in minimizing friction, reducing wear, and improving energy efficiency. Lubricant Technology: Fundamentals and Applications delves into the multifaceted science of lubrication, bridging the gap between foundational principles and cutting-edge innovations.
Authored by leading experts, this comprehensive volume explores:
- The fundamentals of friction, wear, and lubrication.
- The chemistry and properties of base oils and advanced lubricants.
- Revolutionary bio-lubricants, nanolubricants, and ionic liquid additives.
- Emerging trends such as superlubricity and smart lubricants.
- Sustainable practices in used oil disposal and future industry directions.
With detailed studies, practical insights, and research-backed discussions, this book is an indispensable resource for senior undergraduate, graduate students, and academic researchers in fields including mechanical engineering, industrial and production engineering, manufacturing engineering, and materials science.
Whether you're exploring the basics of lubricant formulation or investigating advanced applications, Lubricant Technology: Fundamentals and Applications provides the knowledge you need to drive innovation and sustainability in lubrication science.
The book covers different aspects of lubricant technology such as lubricant chemistry, formulation, categories, and eco-friendliness with emphasis on recent advances in lubricants for sustainability. It discusses onsite oil analysis methods, identifying the root cause of machine failure using various oil analysis tests, and oil sampling.
1. Fundamentals of Lubricants and Lubrication.
2. Type of base oils used
in lubricant formulation and their application scenarios.
3. SURFACE
PROTECTANTS ADDITVES.
4. Lubricant Additives: Protectant agents.
5.
Lubrication Regimes and Mechanisms.
6. Lubricating greases.
7. Prospects of
Bio-Lubricants in the Area of Tribology.
8. Next-Generation Nanolubricants:
From Colloidal Stability to Tribological Performance.
9. Ionic Liquid as
lubricant additives.
10. Exploring the Phenomenon of Superlubricity:
Understanding the principles and mechanisms for current and future
applications.
11. Advancements in lubricants towards energy efficiency and
sustainability.
12. Used oil disposal.
13. New Tendencies in Lubrication
Selected Case Studies
Upendra Maurya completed his Bachelors degree in Mechanical Engineering from the University of Mumbai, India, in 2012 and M.Tech. in Industrial Tribology and Maintenance Management from the National Institute of Technology Srinagar, India, in 2016. During his Masters program, he worked as a visiting researcher at the CSIRIndian Institute of Petroleum, Dehradun, India, studying the influence of molecular chain length on lubricant properties. He earned his Ph.D. from the National Institute of Technology Warangal (NITW), India, specializing in the development of hybrid nanolubricants using ionic liquids and nanoparticles. He is currently an Assistant Professor at the Mechanical Engineering Department, Pimpri Chinchwad College of Engineering, Pune, India. With over 12 publications in reputed international journals, his research focuses on the synthesis of ionic liquids, surface characterization techniques, and advanced lubricant formulations. His work has led to novel insights into the tribological performance of hybrid nanooils and their industrial applications.
Gourav Khajuria is working in the Mechanical Engineering Department, Government College of Engineering and Technology, Jammu, Jammu and Kashmir, India. He completed his Bachelor of Technology (Mechanical Engineering) at Shri Mata Vaishno Devi University, Katra, Jammu, and his Master of Technology (Industrial Tribology and Maintenance Management) at the National Institute of Technology, Srinagar (Hazratbal, Kashmir), India. His research focuses on tribological and surface interactions of materials in the application of the automobile industry. He worked on the super alloy materials at high temperatures to investigate tribological behavior of worn surfaces and mechanism of in situ development of tribofilms under dry conditions. He has over five research work published in various international reputed journals.
Velagapudi Vasu is a Professor at the Department of Mechanical Engineering, National Institute of Technology, Warangal, India. He obtained his Bachelor of Mechanical Engineering from Nagarjuna University, India, in 1999, and a postgraduation in Manufacturing Engineering from Birla Institute of Technology & Science, Pilani, India in 2003. He obtained his Ph.D. from Jawaharlal Nehru Technological University, Hyderabad, India, in 2010. His doctoral dissertation explored ecofriendly nanolubricants as cutting fluid. He was awarded HeritageErasmus Mundus research fellowship in 2013 to visit Politecnico di Milano, Italy, as a PostDoctoral Associate where he carried out wear and tribological studies of aluminum composites. He has published over 40 papers in refereed journals and refereed conference proceedings. He has research interests in the areas of tribology, nanomaterials, nanofluids, micronano machining mechatronics, and systems controls. He has completed several research projects funded by various agencies such as DST, SERB, NRCM, ISC Bangalore, UGC, IIT Bombay, and IE India and is currently handling the SERB project on Synergistic Effect of Phosphonium, Ammonium Based Ionic Liquid and Nano Lubricants on the Tribological and Rheological Properties (worth Rs. 17.64 Lakhs). He is the coordinator of Smart factory: Industry 4.0 Lab, Seimens Center of Excellence NIT Warangal Project (worth 200 Lakhs). He was conferred the Outstanding Scientist Award 2015 in Nanotechnology by Venus International Foundation and the Young Engineer Award 2010 from the Institute of Engineers, India.
