Journal
TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS
Volume 69, Issue 2, Pages 597-602Publisher
SPRINGER INDIA
DOI: 10.1007/s12666-015-0785-4
Keywords
Al-Si-Mg alloy; Low cycle fatigue; Life prediction; Artificial neural network (ANN)
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The aim of this investigation is to develop a model to predict low cycle fatigue (LCF) life of Al-Si-Mg based alloys and establish a correlation between some important processing parameters and LCF life of the investigated alloy. A most popular statistical analysis tool known as artificial neural network model based on multilayer feedforward neural network has been used in this prediction approach. For accurate prediction of fatigue life, a large dataset has been created by collecting the input-output pairs of the experimental results from existing literature. The effects of various processing parameters such as Si content, Mg content, heat treatments, etc. on LCF life have also been predicted using the created network. The predicted results indicate that the fatigue life increases with increase in both Si and Mg content in the alloy; the results are in accordance with some experimental observations available in literature. It is also predicted that fatigue life, which increases with decreasing strain amplitude, was shifted towards the higher number of cycles to failure under T6 heat treatment condition than under both T5 and some modified T6 heat treatment conditions. Similar conclusions are also drawn for experimental results as reported in some literature. The life predictive capability of the created network shows a good acceptability as most of the predicted results lies within a factor of 2.
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