机译:使用人工神经网络(ANNS)预测氧化锌 - 银(50%-50%)/水杂交牛顿纳米流体的导热率
Engineering Research Center of Fujian University for Marine Intelligent Ship Equipment Minjiang University Fuzhou 350108 China;
Department of Mechanical Engineering Najafabad Branch Islamic Azad University Najafabad Iran;
Department of Mechanical Engineering Khomeinishakr Branch Islamic Azad University Khomeirdshahr Iran;
Department of Mechanical Engineering Khomeinishakr Branch Islamic Azad University Khomeirdshahr Iran;
Kennesaw State University Department of Mechanical Engineering MD # 9075 840 Polytechnic Lane Marietta GA 30060 United States of America;
Department of Mechanical Engineering Najafabad Branch Islamic Azad University Najafabad Iran;
Laboratory of Magnetism and Magnetic Materials Advanced Institute of Materials Science Ton Duc Thong University Ho Chi Minh City Vietnam Faculty of Applied Sciences Ton Duc Thang University Ho Chi Minh City Vietnam;
Artificial Neural Networks (ANNs); Thermal conductivity; Hybrid Newtonian nanofluid;
机译:使用人工神经网络预测SiO 2 /水 - 乙二醇(50:50)杂交纳米流体的导热率
机译:使用感知馈电前馈人工神经网络(ANN)预测石墨烯氧化物-Al2O3 /水 - 乙二醇杂交纳米流体的导热率
机译:使用人工神经网络测量MWCNT-CUO /水杂交纳米流体的导热率(ANNS)
机译:Cu-Zn杂交牛油纳米流体的导热系数:使用神经网络的实验数据和建模
机译:混合神经网络:使用人工神经网络来分析和控制生物神经网络。
机译:氧化铝-水纳米流体的热导率和粘度的实验和人工神经网络预测
机译:铜锌杂化牛顿纳米流体的导热系数:实验数据和使用神经网络建模