Título
Critical Analysis of Coefficient of Friction Derivation Methods for Fretting under Gross Slip RegimeAutor-a
Versión
PostprintTipo de documento
ArtículoIdioma
InglésDerechos
© 2019 ElsevierAcceso
Acceso abiertoVersión de la editorial
https://doi.org/10.1016/j.triboint.2019.105988Publicado en
Tribology International 2020 Vol. 143. N. art. 105988Editorial
ElsevierPalabras clave
ODS 9 Industria, innovación e infraestructura
Friction
Coefficient of friction
Fretting loop ... [+]
Friction
Coefficient of friction
Fretting loop ... [+]
ODS 9 Industria, innovación e infraestructura
Friction
Coefficient of friction
Fretting loop
Fretting [-]
Friction
Coefficient of friction
Fretting loop
Fretting [-]
Materia (Tesauro UNESCO)
Tecnología de materialesClasificación UNESCO
Tecnología de materialesResumen
This work presents a critical analysis of coefficient of friction derivation methods for fretting under gross slip regime. A mass review of tribology journals revealed that 41% of papers did not speci ... [+]
This work presents a critical analysis of coefficient of friction derivation methods for fretting under gross slip regime. A mass review of tribology journals revealed that 41% of papers did not specify the derivation method used and 37% employed the least effective methods. Following an analytical and experimental study, the use of the geometric independent coefficient of friction method (GICoF) is suggested for gross slip regime due to its robustness, followed by the energy method (ECoF). This study highlights the importance of the correct selection of the coefficient of friction method and it quantifies potential errors. [-]
Financiador
Gobierno VascoPrograma
Elkartek 2017Elkartek 2018
Número
KK-2017/00053KK-2018/00013
Proyecto
MEcanismos de DEgradación del CAble (MEDECA)MEcanismos de DEgradación del CAble 2 (MEDECA2)
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