SKF: Tribology – a moving story
Resource from: SKF Group Likes:178
Oct 28,2013
The performance of many machines in our everyday life such as cars, trains, airplanes, robots, turbines and compressors depends on contacting surfaces in movement. These surfaces often need to be lubricated for proper durability and energy efficiency. Without lubrication, the wear and damage they suffer need to be contained to reach the designed performance parameters. The knowledge needed to do all this is included in the science branch called “Tribology”.
Gothenburg, 25 October, 2013: Tribology is the science and engineering of interacting surfaces in relative motion. It includes the study and application of the principles of friction, lubrication and wear. Tribology is a branch of mechanical engineering and materials science.
In 1966, the Jost Report [1] produced by a Committee of the British Department of Education and Science officially coined the word Tribology to describe this entire field.
The word tribology derives from the Greek root τριβ- of the verb τρίβω, tribo, "I rub" in classic Greek; and the suffix -logy from -λογία, -logia "study of", "knowledge of".
The knowledge contained in tribology is used in the design of all kinds of rolling and sliding bearings. In rolling bearings, tribology informs the selection of the lubricants (oil and greases) for an application, the design of the bearing, and the choice of bearing materials and surfaces; it is also used to calculate friction losses, temperature rise and the lifespan of the both the lubricant and the bearing itself.
In early times, rolling bearings were designed mainly using empirical knowledge of materials and basic modelling aspects of mechanics and fatigue. However, due to the high performance requirements that the modern industry has imposed on rolling bearings, empirical knowledge is no longer enough. Many of the requirements affect the contacting surfaces; higher velocities, higher temperatures, higher power densities, thinner lubricants, larger bearing sizes, more aggressive environmental conditions or additives, higher vibration, etc. Rolling bearings are in general extremely reliable components but when they fail, the root cause is often on the surface, e.g. poor lubrication, contamination, wear, high temperatures associated to friction, etc. where the knowledge of tribology is highly relevant. This is why the understanding of tribological mechanisms and the development of innovative tribological solutions have become so important in the bearing industry.
Modern bearings are designed based on highly sophisticated tribological knowledge, from the selection of materials to the design of their geometry and surface finishing, this includes the specification of the lubricant and seals for reliable and safe operation. The tribological knowledge involved requires sophisticated computational models and detailed laboratory experiments and test methods.
In 2012, SKF invested #8364; 180 Million in R&D, representing 2.5% of the annual turnover. The development activities resulted in the submission of 660 invention disclosures and 421 new patents in 2012.
Important innovations have come out as a result of the tribological knowledge in SKF. For example, E2 (energy efficient) bearings, NoWear coating, hybrid bearings, brass and polymer cages, super-finished bearings for special applications, surface texturing, grease and lubricant specifications, low friction seals, etc. are all a result of SKF R&D work.
Tribological knowledge is also packaged into many SKF prediction tools and software. These include BEAST, Bearing Beacon, printed and on-line catalogue models, the SKF friction model for rolling bearings, the SKF bearing life model (specially the lubrication and contamination factors), the SKF grease life model, and the SKF surface distress model. These are important tools in the development of innovations and in the prediction of bearing performance in conditions where the surface plays a major role.
SKF Tribology Cooperation with Universities
SKF has established long-term co-operations with some of the best universities in the tribology field, which is unique in the bearing industry. Although high-tech companies such as SKF have their own internal research and development facilities and specialists, the advantage of working with academia is the access to world-class scientists and engineers with a long-term mindset and a different approach, enhancing overall creativity. The window for achieving results is often much more long term than it would be in-house. However, to keep high-level tribology research in-house is of paramount importance in order to be able to integrate and to input the business perspective to the academic research.
Imperial College
Imperial College London is one of the world’s leading technical universities, consistently ranked in the top 10 best universities worldwide [2]. Imperial’s Mechanical Engineering Department hosts one of the SKF University Technology Centres (SKF UTC). The Centre was founded in January 2010 and its research focuses on fundamental studies of tribological systems using advanced modelling and measurement methods.[3]. Professor Hugh Spikes and Dr Amir Kadiric [4] lead a rapidly expanding team that currently comprises seven PhD students, and two post-doctoral research associates. The establishment of the UTC at Imperial College formalised an existing long-standing cooperation with SKF of more than 30 years, during which time the former SKF technical director Prof. Stathis Ioannides has been visiting professor at Imperial College.
The SKF UTC is an integral part of Imperial’s Tribology Group which was established more than 60 years ago and is internationally recognised as one of the world-leading groups in tribology research. Amongst its achievements are many pioneering studies in tribology including into diesel lubricity, application of optical interferometry techniques in tribology and modelling of rough surface contacts. The quality of the Group’s research is recognised through numerous awards received by its members including three Tribology Trust Gold Medals, STLE International Award and Imperial College Research Excellence Award as well as more than 20 annual best paper awards from leading Tribology journals.
The objective of the Imperial College UTC team is to develop a detailed understanding of tribological phenomena at the interface in order to improve component durability and reduce frictional losses. This is achieved through a combination of novel experimental techniques and advanced numerical models. Current projects include studies of elasto-hydrodynamic lubrication (EHL) in rough contacts, contact mechanics of engineered surfaces, Computational Fluid Dynamics (CFD) modelling of EHL, performance of lubricant additives, low friction greases, influence of roughness on contact friction, initiation and propagation of surface cracks, smearing damage in roller bearings and bearing seal lubrication.
The UTC works closely with SKF’s own Engineering and Research Centre in The Netherlands, which ensures that the fundamental understanding developed within the UTC is successfully utilised by SKF, with the ultimate goal of reducing friction and wear in SKF bearings and thereby extending their service life and environmental performance.
INSA de Lyon
In France, INSA Lyon is one of the university sites with the greatest concentration of expertise and researchers in high technology, reflecting its culture and commitment to a multi-disciplinary research approach. With 21 laboratories employing 500 researchers and 650 doctoral students, INSA Lyon is a unique centre for research, producing breakaway scientific research, often integrated in innovative applications by its industrial partners.
The LaMCoS (INSA Lyon, CNRS UMR5259) Laboratory is a multi-disciplinary laboratory working in the field of Contact and Solid Mechanics and Structural Dynamics. It provides a wide range of expertise in tribology, fast dynamics, vibration mechanics, control, transmission systems, rotating machines and material forming. The laboratory’s overall scientific objective is to conduct research on understanding and controlling the behaviour of mechanical systems and structures, while taking into account their interfaces.
The cooperation in tribology research between INSA de Lyon and SKF can be traced back more than 20 years, when first the idea of developing a machine to test large spinning contacts was developed. This machine is now a reality; it is called Tribogyr [5] and it is already providing new insights into the behaviour of friction in rolling elements, which is important in meeting commercial trends towards higher power density and friction reduction in bearings. In addition, SKF Engineering and Research Centre (ERC) researcher Guillermo Morales Espejel has been visiting professor at INSA de Lyon (LaMCoS) since 2004.
Recently, SKF and INSA de Lyon have further strengthened their cooperating by setting-up the SKF Chair on Lubricated Interfaces for the Future at INSA de Lyon [6]. The aim of this six-year Chair is to carry out an upstream, cross-functional study covering the identification, understanding and modelling of the behaviour of lubricants under extreme conditions imposed by the lubricated interfaces. In the field of aerospace in particular, lubricants (often complex fluids due to their nature and composition) play a crucial role in reducing friction losses, wear and the risk of damage. One of the objectives of the Chair is to anticipate future developments dictated by economic, social and environmental constraints.
The subjects addressed will particularly focus on:
- Lubricating fluids: From rheology to lubrication,
- Lubricants and complex fluids: From molecular mechanisms to lubrication,
- Free surface flows in lubrication, fluid/solid interactions.
In addition to research, the Chair aims to attract young researchers and students towards SKF by means of internships and/or short project research in the different locations of SKF France or the SKF ERC.
University of Twente
Another long-standing cooperation of SKF in the field of tribology has been with the Tribology and Fluids Mechanics departments of the University of Twente in The Netherlands. The ERC’s researcher Piet M. Lugt is visiting professor in Tribology based Maintenance at the Tribology department of the University of Twente and Dr. C.H. Venner from the Fluids Mechanics department is visiting scientist at SKF ERC.
The visiting professorship on “Tribology based Maintenance” (Predictive Maintenance) pursues the following areas:
1. Models for reliability of bearings systems
2. Re-lubrication intervals
3. Rheology of grease
The work of Dr. Venner at ERC focuses on new modelling techniques for fluid-solid interactions and is directly concerned with the long-term development of new predicting tools.
References
1. Jost, H. P. (ed.) 1966 Lubrication—tribology. Education and research. A report. London: HMSO.
2. http://www.topuniversities.com/university-rankings/world-university-rankings/2012
3. Cooperation for Creative Changes, SKF Evolution, 2011, No. 1. http://evolution.skf.com/cooperation-for-creative-changes/
4. Slick Research, SKF Evolution, 2013, No. 2 http://evolution.skf.com/slick-research/
5. The Beast of Lyon – Putting Large Bearing Contacts to the Test, SKF Evolution, 2012, No. 1 http://evolution.skf.com/the-beast-of-lyon-%E2%80%93-putting-large-bearing-contacts-to-the-test/
6. SKF Chair Presentation (INSA de Lyon). http://fondation.insalyon.fr/news/enewsletter3/download/SKF_CHAIR_PRESENTATION.pdf
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SKF is a leading global supplier of bearings, seals, mechatronics, lubrication systems, and services which include technical support, maintenance and reliability services, engineering consulting and training. SKF is represented in more than 130 countries and has around 15,000 distributor locations worldwide. Annual sales in 2012 were SEK 64,575 million and the number of employees was 46,775. www.skf.com
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1.The news above mentioned with detailed source are from internet.We are trying our best to assure they are accurate ,timely and safe so as to let bearing users and sellers read more related info.However, it doesn't mean we agree with any point of view referred in above contents and we are not responsible for the authenticity. If you want to publish the news,please note the source and you will be legally responsible for the news published.
2.All news edited and translated by us are specially noted the source"CBCC".
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