A review from physics based models to artificial intelligence aided models in fatigue prediction for industry applications Online publication date: Thu, 14-Sep-2023
by Müge Gürgen; Mete Bakır; Ersin Bahceci; Hakkı Özgür Ünver
International Journal of Mechatronics and Manufacturing Systems (IJMMS), Vol. 16, No. 2/3, 2023
Abstract: For a mechanical part to be certified, it should be assessed whether its mechanical, optical or thermal properties satisfy service requirements. Fatigue is one of the critical properties of functional materials, particularly in the aviation industry, where new materials, such as alloys, fibre-reinforced composites and additively manufactured alloys, dominate increasingly. This trend puts a heavy burden on fatigue characterisation, which is expensive and time-consuming. However, recent developments in artificial intelligence offer novel methods to decrease the test load cost-effectively. Hence, this literature survey first summarises predominant fatigue models both theoretical and numerical, and then covers and classifies recent studies (2000-2023) using recent machine learning techniques.
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