On the influence of porosity and pore size on AlSi17 alloy foam using artificial neural network

Ciência & Tecnologia dos Materiais Pub Date : 2017-05-01 DOI:10.1016/j.ctmat.2017.05.004

Dipen Kumar Rajak , L.A. Kumaraswamidhas , S. Das

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引用次数: 6

Abstract

In the present investigation, AlSi17 Aluminum alloy closed-cell foam is fabricated through Melt route process using Calcium powder as thickening agent and Titanium hydride as foaming agent along with the addition of 10wt% Silicon Carbide particles. The effect of pore and pore size on the deformation mechanism under static loading conditions is studied. Also, the fabricated foam properties are analyzed after the completion of the test. The strain rate loading conditions of the compression test conducted on the Al foam lies in the range of 10^-3s^-1 to 10s^-1 and the above investigations are carried out according to the loading conditions. The Artificial Neural Artwork (ANN) approach is employed for predicting the compressive deformation of the fabricated Al alloy foam using simulations. The Plateau stress data is obtained from the compression tests and the neural network functions are successively modeled and later the specific energy absorption (SEA) is calculated from the plateau stress. The simulation results of the ANN are in good agreement with the compression test results and the predictions are performed with highest accuracy.

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用人工神经网络研究孔隙率和孔径对AlSi17合金泡沫的影响

本研究以钙粉为增稠剂，氢化钛为发泡剂，加入10wt%碳化硅颗粒，采用熔体法制备了AlSi17铝合金闭孔泡沫。研究了静载条件下孔隙和孔径对变形机理的影响。试验完成后，对制备的泡沫材料进行了性能分析。泡沫铝压缩试验的应变率加载条件为10-3s-1 ~ 10- 1s -1，并根据该加载条件进行了上述研究。采用人工神经图(ANN)方法对制备的泡沫铝合金压缩变形进行了模拟预测。从压缩试验中获得高原应力数据，依次建立神经网络函数模型，然后根据高原应力计算比能量吸收(SEA)。人工神经网络的仿真结果与压缩试验结果吻合较好，预测精度较高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ciência & Tecnologia dos Materiais

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