Please use this identifier to cite or link to this item:
http://hdl.handle.net/2080/923
Title: | Application of Artificial Neural Network for Predicting Fatigue Crack Propagation Life of Aluminum Alloys |
Authors: | Mohanty, J R Verma, B B Parhi, D R K Ray, P K |
Keywords: | Fatigue crack growth rate Artificial Neural Network Constant amplitude loading |
Issue Date: | 2009 |
Publisher: | Association of Computational Materials Science and Surface Engineering |
Citation: | Archives of Computational Materials Science and Surface Engineering, Vol 1, No 3, Pgs 133-138, 2009 |
Abstract: | Purpose: In this work, fatigue crack propagation life of 7020 T7 and 2024 T3 aluminum alloys under the influence of load ratio was predicted by using artificial neural network (ANN). Design/methodology/approach: Numerous phenomenological models have been proposed for predicting fatigue life of the components under the influence of load ratio to take into account the mean load effect. Findings: In current research, an automatic prediction methodology has been adopted to estimate the constant amplitude loading fatigue life under the above condition by applying artificial neural network (ANN). Practical implications: ANNs show great potential for predicting fatigue crack growth rate especially by interpolation within the tested range. However, its benefit is lost when the model is needed to extrapolate the available experimental data. Originality/value: The predicted results are found to be in good agreement with the experimental findings when tested on two aluminum alloys 7020 T7 and 2024 T3 respectively |
URI: | http://hdl.handle.net/2080/923 |
Appears in Collections: | Journal Articles |
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