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Aspects of fretting fatigue finite element modelling

Kyvia de Fatima Resende Pereira, Libardo V. Vanegas-Useche and Magd Abdel Wahab (UGent)
(2020) CMC-COMPUTERS MATERIALS & CONTINUA. 64(1). p.97-144
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Abstract
Fretting fatigue is a type of failure that may affect various mechanical components, such as bolted or dovetail joints, press-fitted shafts, couplings, and ropes. Due to its importance, many researchers have carried out experimental tests and analytical and numerical modelling, so that the phenomena that govern the failure process can be understood or appropriately modelled. Consequently, the performance of systems subjected to fretting fatigue can be predicted and improved. This paper discusses different aspects related to the finite element modelling of fretting fatigue. It presents common experimental configurations and the analytical solutions for cylindrical contact. Then, it discusses aspects of fretting fatigue crack initiation, such as crack location, orientation, and length, as well as stress averaging approaches. Then, it deals with the propagation stage; crack face interaction, orientation criteria, and crack growth rate are discussed. Lastly, additional aspects of recent research on fretting fatigue are reviewed: out-of-phase loading, cohesive zone modelling, wear effects, heterogeneity, and crystal orientation. Fretting fatigue is a phenomenon not well understood, and much more research is needed so that its understanding is increased and proper criteria and laws may be available for different cases.
Keywords
Modelling and Simulation, Electrical and Electronic Engineering, Mechanics of Materials, Biomaterials, Computer Science Applications, Fretting fatigue, FEM, modelling, crack initiation, crack growth, SINGLE-CRYSTAL SUPERALLOYS, CRACK INITIATION, FRACTURE-MECHANICS, PROPAGATION LIFETIME, NUMERICAL PREDICTION, TANGENTIAL FORCE, SURFACE-ENERGY, RELATIVE SLIP, STRESS-FIELDS, RAILWAY AXLE

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MLA
Resende Pereira, Kyvia de Fatima, et al. “Aspects of Fretting Fatigue Finite Element Modelling.” CMC-COMPUTERS MATERIALS & CONTINUA, vol. 64, no. 1, 2020, pp. 97–144, doi:10.32604/cmc.2020.09862.
APA
Resende Pereira, K. de F., V. Vanegas-Useche, L., & Abdel Wahab, M. (2020). Aspects of fretting fatigue finite element modelling. CMC-COMPUTERS MATERIALS & CONTINUA, 64(1), 97–144. https://doi.org/10.32604/cmc.2020.09862
Chicago author-date
Resende Pereira, Kyvia de Fatima, Libardo V. Vanegas-Useche, and Magd Abdel Wahab. 2020. “Aspects of Fretting Fatigue Finite Element Modelling.” CMC-COMPUTERS MATERIALS & CONTINUA 64 (1): 97–144. https://doi.org/10.32604/cmc.2020.09862.
Chicago author-date (all authors)
Resende Pereira, Kyvia de Fatima, Libardo V. Vanegas-Useche, and Magd Abdel Wahab. 2020. “Aspects of Fretting Fatigue Finite Element Modelling.” CMC-COMPUTERS MATERIALS & CONTINUA 64 (1): 97–144. doi:10.32604/cmc.2020.09862.
Vancouver
1.
Resende Pereira K de F, V. Vanegas-Useche L, Abdel Wahab M. Aspects of fretting fatigue finite element modelling. CMC-COMPUTERS MATERIALS & CONTINUA. 2020;64(1):97–144.
IEEE
[1]
K. de F. Resende Pereira, L. V. Vanegas-Useche, and M. Abdel Wahab, “Aspects of fretting fatigue finite element modelling,” CMC-COMPUTERS MATERIALS & CONTINUA, vol. 64, no. 1, pp. 97–144, 2020.
@article{8665321,
  abstract     = {{Fretting fatigue is a type of failure that may affect various mechanical components, such as bolted or dovetail joints, press-fitted shafts, couplings, and ropes. Due to its importance, many researchers have carried out experimental tests and analytical and numerical modelling, so that the phenomena that govern the failure process can be understood or appropriately modelled. Consequently, the performance of systems subjected to fretting fatigue can be predicted and improved. This paper discusses different aspects related to the finite element modelling of fretting fatigue. It presents common experimental configurations and the analytical solutions for cylindrical contact. Then, it discusses aspects of fretting fatigue crack initiation, such as crack location, orientation, and length, as well as stress averaging approaches. Then, it deals with the propagation stage; crack face interaction, orientation criteria, and crack growth rate are discussed. Lastly, additional aspects of recent research on fretting fatigue are reviewed: out-of-phase loading, cohesive zone modelling, wear effects, heterogeneity, and crystal orientation. Fretting fatigue is a phenomenon not well understood, and much more research is needed so that its understanding is increased and proper criteria and laws may be available for different cases.}},
  author       = {{Resende Pereira, Kyvia de Fatima and V. Vanegas-Useche, Libardo and Abdel Wahab, Magd}},
  issn         = {{1546-2218}},
  journal      = {{CMC-COMPUTERS MATERIALS & CONTINUA}},
  keywords     = {{Modelling and Simulation,Electrical and Electronic Engineering,Mechanics of Materials,Biomaterials,Computer Science Applications,Fretting fatigue,FEM,modelling,crack initiation,crack growth,SINGLE-CRYSTAL SUPERALLOYS,CRACK INITIATION,FRACTURE-MECHANICS,PROPAGATION LIFETIME,NUMERICAL PREDICTION,TANGENTIAL FORCE,SURFACE-ENERGY,RELATIVE SLIP,STRESS-FIELDS,RAILWAY AXLE}},
  language     = {{eng}},
  number       = {{1}},
  pages        = {{97--144}},
  title        = {{Aspects of fretting fatigue finite element modelling}},
  url          = {{http://dx.doi.org/10.32604/cmc.2020.09862}},
  volume       = {{64}},
  year         = {{2020}},
}
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