A tribosystem is a tribological system that consists of at least two contacting bodies and any environmental factor that affects their interaction.[1] Tribologists study tribological systems in detail, and devise tribological test procedures.
Definition
editAccording to ASTM G40-17, a tribosystem is "any system that contains one or more triboelements, including all mechanical, chemical, and environmental factors relevant to tribological behavior."[2] Here, triboelement refers to "one of two or more solid bodies that comprise a sliding, rolling, or abrasive contact, or a body subjected to impingement or cavitation."[2]
More simply speaking, a tribosystem is a tribological system that consists of at least two contacting bodies, including the environment in which the interaction takes place.[1] The complete description of a tribosystem includes all relevant factors that govern the tribological behavior of the system. Thus, depending on the aim of the tribological analysis, the tribosystem boundary is flexible and can be drawn more or less widely.
Describing Tribosystems
editThe description of tribosystems is based on a detailed assessment of relevant system inputs, outputs and losses, as well as an overall description of the system structure.[3] The following table gives an overview.
Inputs | Outputs | Losses | System Structure |
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Relevance
editThe complete description of a tribosystem is the first step when devising a tribological test procedure. Since tribological tests are often carried out on simplified model systems using standardized tribometers, a complete description of the tribosystem allows for tribological testing across different scales.
For example, if the tribological analysis aims to investigate a specific gear contact in a complex gearbox, exact knowledge of tribological inputs allows tribologists to devise a simplified test setup involving two gears only. Conversely, if the analysis aims to develop a new lubricant formulation for gearbox applications, a rough description of the gearbox-tribosystem allows to reduce testing to relevant system inputs. Thus, detailed knowledge of the tribosystem can significantly reduce the development effort for machines and lubricants.
References
edit- ^ a b Blau, P.J. (19 December 2017). Tribosystem analysis : a practical approach to the diagnosis of wear problems. Boca Raton. ISBN 9781498700511. OCLC 952212504.
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: CS1 maint: location missing publisher (link) - ^ a b ASTM International (2017). "ASTM G40-17: Standard Terminology Relating to Wear and Erosion". doi:10.1520/g0040-17.
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(help) - ^ a b Horst., Czichos (2003). Tribologie-Handbuch : Reibung und Verschleiss ; mit 115 Tabellen. Habig, Karl-Heinz., Santner, Erich (2., überarb. und erw. Aufl ed.). Wiesbaden: Vieweg. ISBN 3528063548. OCLC 76560305.