Industrial Tribo-Systems: Current Issues and Future Development Trends
A special issue of Lubricants (ISSN 2075-4442).
Deadline for manuscript submissions: closed (1 March 2024) | Viewed by 11167
Special Issue Editors
Interests: thermal-chemical treatment; boriding; boroaluminizing; electron-beam procesing; wear
Special Issues, Collections and Topics in MDPI journals
Interests: automotive lubricants; driveline lubrication; industrial lubricants; EV/hybrid components; thermal management coolants; tribological performance testing; nanofluids; energy storage materials; fuel cell applications
Special Issues, Collections and Topics in MDPI journals
Interests: heat treatment; quenching; tribology and lubrication
Interests: chemical modification and thermo oxidative stability of vegetable oils; synthetic esters and biodiesel; steel heat-treating; quenching and tribology
Special Issue Information
Dear Colleagues,
This Special Issue is the third part of the Special Issue entitled “Industrial Tribo-Systems and Future Development Trends”.
In recent years, the automotive and energy industries have undergone a revolution in hardware and system materials. Key advances of advanced powertrain or propulsion vehicles have been made in energy efficiency and durability improvement. Various approaches include improvements in advanced tribo-systems, component design such as down-sizing, boosting, and electrification, as well as surface engineering and advanced materials in powertrain or propulsion systems. Among these approaches, friction reduction and wear control via surface engineering methodologies are the most effective approaches, which have been receiving significant attention from tribologists and automotive engineers. Foreseeably, the future will embrace the advanced design and implementation of a “smart” tribo-system that will automatically control critical tribological parameters, thereby optimizing lubricant formulations and subsystem performance. These significant challenges to our automotive and petroleum industries will be seriously considered as the primary drivers for our ongoing research and development efforts.
In this Special Issue, these topics will be reviewed, together with discussions on the impact of surface engineering and advanced material technologies, as well as lubricant formulations on promises of continuing friction and wear reduction trends. In addition, consumer demand for hybrid–electrical vehicles (HEV) and electrical vehicles (EV) has been increasing due to their benefits of high energy efficiency and extended durability of electrification components. The introduction of driveline electrification components, surface materials, lubricant operating environments, and the demands on efficiency and durability necessitate lubricant formulations and surface engineering technologies compatible with these advanced propulsion systems. Original equipment manufacturers (OEMs) have requested the adoption of dedicated driveline lubricants or thermal cooling fluids to protect and ensure the smooth functioning of the electrified drivetrain parts. Transmission and driveline fluids tailored to hybrids and EVs must have the right electrical and thermal properties, ensure corrosion protection, and be compatible with insulating materials. They need to meet appropriate thermal cooling requirements, offer bearing protection, and provide oxidation and sludge control.
This Special Issue will focus on the current development and future trends for electrified drivetrain friction reduction and wear control via surface engineering or materials in advanced tribo-systems systems. This new edition will focus on several emerging technology and advanced tribology development activities, including a number of exciting areas such as energy-efficient tribology systems, non-ferrous surface engineering materials, drivetrain fluids, gears, fuel cells, wind turbines, and energy storage systems. In addition, energy-efficient lubricant formulations or e-mobility fluids for electric or hybrid vehicle applications will also be introduced in this new edition.
For this Special Issue, for which both reviews and original articles are welcome, we invite high-quality papers that focus on, but are not limited to, the following topics:
- Development of tribo-systems for evaluation of tribological performance using advanced powertrain lubricants or electrified e-mobility fluids for EV or hybrid vehicles.
- Evaluation of advanced automotive lubricants or driveline fluids in hybrid electrified components using advanced tribo-systems for bench testing and field simulation.
- Characterization of the industrial lubrication/tribological environments (such as friction, wear, temperatures, loads, contaminants, etc.) operating in extreme environmental conditions.
- Bench or field-testing evaluation and interpretation of the tribological performance of automotive lubricants and thermal management systems.
- Analysis of friction and wear performance in advanced powertrain or hybrid driveline electrification components.
- Analysis of friction and wear performance in industrial machinery or manufacturing equipment.
- Analysis of tribochemical or surface engineering processes during tribo-system evaluation for industrial equipment and automotive applications.
- Future trends for advanced e-mobility fluids and thermal management cooling fluids.
- Surface engineering for superior wear resistance.
The Guest Editors of this Special Issue would like to express their sincere gratitude to all previous authors and reviewers for their exceptional efforts in contributing to this SI. We sincerely welcome new contributions or recommendations for this 3rd edition of this Special Issue in the Lubricants journal. Special thanks are also owed to the editorial staff of Lubricants for their valuable support, professional guidance, and patience.
Dr. Undrakh Mishigdorzhiyn
Dr. Simon C. Tung
Dr. George Totten
Dr. Rosa Simencio Otero
Guest Editors
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