Modeling stick-slip in bolted joint tightening process
N/D
Tipo de produção
Artigo
Data de publicação
2020-06-05
Texto completo (DOI)
Periódico
International Journal of Pressure Vessels and Piping
Editor
Texto completo na Scopus
Citações na Scopus
3
Autores
FERNANDES, R. D. S.
Roberto Bortolussi
Sergio Delijaicov
FERREIRA, J.
Orientadores
Resumo
© 2020 Elsevier LtdStick-slip affects torque-preload relationship during bolted joint tightening process. Its occurrence is not always possible to avoid and it can lead to an unreliable joint. In this study, tightening process was investigated and, in a first approach, modeled through theoretical analysis. In a second approach, experimental data was explored statistically using Analysis of Variance (ANOVA) and F-Test. Coefficient of global friction and stick-slip parameters were modeled and added to the first model. The final semi-empirical model was able to reproduce the variation of the friction and to predict stick-slip occurrence. Low errors were obtained in the comparison with experimental data for both cases, with and without the occurrence of stick-slip. The proposed semi-empirical model provides mathematical approach for accurately predicting stick-slip and its characteristics in a specific condition of bolt-nut surface treatment.
Citação
FERNANDES, R. D. S.; BORTOLUSSI, R.; DELIJAICOV, S.; FERREIRA, J. Modeling stick-slip in bolted joint tightening process. International Journal of Pressure Vessels and Piping, v. 283, jun. 2020.
Palavras-chave
Keywords
Bolted joint; Modeling; Stick-slip; Tightening process
Assuntos Scopus
Mathematical approach; Pre loads; Semi-empirical modeling; Slip parameter; Tightening process